testssl.sh/testssl.sh
Dirk Wetter 77e47cadff
Merge pull request #1963 from drwetter/fix_1956_3.1dev
Redirect debugme() outputs to stderr (3.1dev)
2021-08-07 16:18:43 +02:00

23055 lines
1.1 MiB
Executable File

#!/usr/bin/env bash
#
# vim:ts=5:sw=5:expandtab
# we have a spaces softtab, that ensures readability with other editors too
# testssl.sh is a program for spotting weak SSL/TLS encryption, ciphers, protocols and some
# vulnerabilities or features. It may or may be not distributed by your distribution.
# The upstream versions are available (please leave the links intact):
#
# Development version https://github.com/drwetter/testssl.sh
# Stable version https://testssl.sh
# File bugs at GitHub https://github.com/drwetter/testssl.sh/issues
#
# Project lead and initiator: Dirk Wetter, copyleft: 2007-today, contributions so far see CREDITS.md
# Main contributions from David Cooper
# Project lead and initiator: Dirk Wetter, copyleft: 2007-today.
# Main contributions from David Cooper. Further contributors see CREDITS.md .
#
# License: GPLv2, see https://opensource.org/licenses/gpl-2.0.php and
# ccompanying license "LICENSE.txt". Redistribution + modification under this
# license permitted.
# If you enclose this program or parts of it in your software, it has to be
# accompanied by the same license (see link). Do not violate the license.
# If you do not agree to these terms, do not use it in the first place!
#
# OpenSSL, which is being used and maybe distributed via one of this projects'
# web sites, is subject to their licensing: https://www.openssl.org/source/license.txt
#
# The client simulation data comes from SSLlabs and is licensed to the 'Qualys SSL Labs
# Terms of Use' (v2.2), see https://www.ssllabs.com/downloads/Qualys_SSL_Labs_Terms_of_Use.pdf,
# stating a CC BY 3.0 US license: https://creativecommons.org/licenses/by/3.0/us/
#
# Please note: USAGE WITHOUT ANY WARRANTY, THE SOFTWARE IS PROVIDED "AS IS".
# USE IT AT your OWN RISK!
# Seriously! The threat is you run this code on your computer and untrusted input e.g.
# could be supplied from a server you are querying.
#
# HISTORY:
# Back in 2006 it all started with a few openssl commands...
# That's because openssl is a such a good swiss army knife (see e.g.
# https://wiki.openssl.org/index.php/Command_Line_Utilities) that it was difficult to resist
# wrapping some shell commands around it, which I used for my pen tests. This is how
# everything started.
# Now it has grown up, it has bash socket support for most features, which has been basically
# replacing more and more functions of OpenSSL and some sockets functions serve as some kind
# of central functions.
#
# WHY BASH?
# Cross-platform is one of the three main goals of this script. Second: Ease of installation.
# No compiling, install gems, go to CPAN, use pip etc. Third: Easy to use and to interpret
# the results.
# /bin/bash including the builtin sockets fulfill all that. The socket checks in bash may sound
# cool and unique -- they are -- but probably you can achieve e.g. the same result with my favorite
# interactive shell: zsh (zmodload zsh/net/socket -- checkout zsh/net/tcp) too! Oh, and btw.
# ksh93 has socket support too.
# Also bash is quite powerful if you use it appropriately: It can operate on patterns, process lines
# and deal perfectly with regular expressions -- without external binaries.
# /bin/bash though is way more often used within Linux and it's perfect for cross platform support.
# MacOS X has it and also under Windows the MSYS2 extension or Cygwin as well as Bash on Windows (WSL)
# has /bin/bash.
#
# Q: So what's the difference to www.ssllabs.com/ssltest/ or sslcheck.globalsign.com/ ?
# A: As of now ssllabs only check 1) webservers 2) on standard ports, 3) reachable from the
# internet. And those examples above 4) are 3rd parties. If these restrictions are all fine
# with you and you need a management compatible rating -- go ahead and use those.
#
# But also if your fine with those restrictions: testssl.sh is meant as a tool in your hand
# and it's way more flexible. Oh, and did I mention testssl.sh is open source?
#
#################### Stop talking, action now ####################
########### Definition of error codes
#
declare -r ERR_BASH=255 # Bash version incorrect
declare -r ERR_CMDLINE=254 # Cmd line couldn't be parsed
declare -r ERR_FCREATE=253 # Output file couldn't be created
declare -r ERR_FNAMEPARSE=252 # Input file couldn't be parsed
declare -r ERR_NOSUPPORT=251 # Feature requested is not supported
declare -r ERR_OSSLBIN=250 # Problem with OpenSSL binary
declare -r ERR_DNSBIN=249 # Problem with DNS lookup binaries
declare -r ERR_OTHERCLIENT=248 # Other client problem
declare -r ERR_DNSLOOKUP=247 # Problem with resolving IP addresses or names
declare -r ERR_CONNECT=246 # Connectivity problem
declare -r ERR_CLUELESS=245 # Weird state, either though user options or testssl.sh
declare -r ERR_RESOURCE=244 # Resources testssl.sh needs couldn't be read
declare -r ERR_CHILD=242 # Child received a signal from master
declare -r ALLOK=0 # All is fine
[ -z "${BASH_VERSINFO[0]}" ] && printf "\n\033[1;35m Please make sure you're using \"bash\"! Bye...\033[m\n\n" >&2 && exit $ERR_BASH
[ $(kill -l | grep -c SIG) -eq 0 ] && printf "\n\033[1;35m Please make sure you're calling me without leading \"sh\"! Bye...\033[m\n\n" >&2 && exit $ERR_BASH
[ ${BASH_VERSINFO[0]} -lt 3 ] && printf "\n\033[1;35m Minimum requirement is bash 3.2. You have $BASH_VERSION \033[m\n\n" >&2 && exit $ERR_BASH
[ ${BASH_VERSINFO[0]} -le 3 ] && [ ${BASH_VERSINFO[1]} -le 1 ] && printf "\n\033[1;35m Minimum requirement is bash 3.2. You have $BASH_VERSION \033[m\n\n" >&2 && exit $ERR_BASH
########### Debugging helpers + profiling
#
declare -r PS4='|${LINENO}> \011${FUNCNAME[0]:+${FUNCNAME[0]}(): }'
DEBUGTIME=${DEBUGTIME:-false} # https://stackoverflow.com/questions/5014823/how-to-profile-a-bash-shell-script-slow-startup#20855353
DEBUG_ALLINONE=${DEBUG_ALLINONE:-false} # true: do debugging in one screen (old behavior for testssl.sh and bash3's default
# false: needed for performance analysis or useful for just having an extra file
DEBUG_ALLINONE=${SETX:-false} # SETX as a shortcut for old style debugging, overriding DEBUG_ALLINONE
if [[ "$SHELLOPTS" =~ xtrace ]]; then
if "$DEBUGTIME"; then
# separate debugging, doesn't mess up the screen, $DEBUGTIME determines whether we also do performance analysis
exec 42>&2 2> >(tee /tmp/testssl-$$.log | sed -u 's/^.*$/now/' | date -f - +%s.%N >/tmp/testssl-$$.time)
# BASH_XTRACEFD=42
else
if ! "$DEBUG_ALLINONE"; then
exec 42>| /tmp/testssl-$$.log
BASH_XTRACEFD=42
fi
fi
fi
########### Traps! Make sure that temporary files are cleaned up after use in ANY case
#
trap "cleanup" EXIT
trap "sig_cleanup" INT QUIT TERM
trap "child_error" USR1
########### Internal definitions
#
declare -r VERSION="3.1dev"
declare -r SWCONTACT="dirk aet testssl dot sh"
[[ "$VERSION" =~ dev|rc|beta ]] && \
SWURL="https://testssl.sh/dev/" ||
SWURL="https://testssl.sh/"
if git log &>/dev/null; then
declare -r GIT_REL="$(git log --format='%h %ci' -1 2>/dev/null | awk '{ print $1" "$2" "$3 }')"
declare -r GIT_REL_SHORT="$(git log --format='%h %ci' -1 2>/dev/null | awk '{ print $1 }')"
declare -r REL_DATE="$(git log --format='%h %ci' -1 2>/dev/null | awk '{ print $2 }')"
fi
declare -r PROG_NAME="$(basename "$0")"
declare -r RUN_DIR="$(dirname "$0")"
declare -r SYSTEM="$(uname -s)"
declare -r SYSTEMREV="$(uname -r)"
HNAME="$(uname -n)"
HNAME="${HNAME%%.*}"
declare CMDLINE
CMDLINE_PARSED="" # This makes sure we don't let early fatal() write into files when files aren't created yet
declare -r -a CMDLINE_ARRAY=("$@") # When performing mass testing, the child processes need to be sent the
declare -a MASS_TESTING_CMDLINE # command line in the form of an array (see #702 and https://mywiki.wooledge.org/BashFAQ/050).
declare -a SKIP_TESTS=() # This array hold the checks to be skipped
########### Defining (and presetting) variables which can be changed
#
# Following variables make use of $ENV and can also be used like "<VAR>=<value> ./testssl.sh <URI>"
declare -x OPENSSL
OPENSSL_TIMEOUT=${OPENSSL_TIMEOUT:-""} # Default connect timeout with openssl before we call the server side unreachable
CONNECT_TIMEOUT=${CONNECT_TIMEOUT:-""} # Default connect timeout with sockets before we call the server side unreachable
PHONE_OUT=${PHONE_OUT:-false} # Whether testssl can retrieve CRLs and OCSP
FAST_SOCKET=${FAST_SOCKET:-false} # EXPERIMENTAL feature to accelerate sockets -- DO NOT USE it for production
COLOR=${COLOR:-2} # 3: Extra color (ciphers, curves), 2: Full color, 1: B/W only 0: No ESC at all
COLORBLIND=${COLORBLIND:-false} # if true, swap blue and green in the output
SHOW_EACH_C=${SHOW_EACH_C:-false} # where individual ciphers are tested show just the positively ones tested
SHOW_SIGALGO=${SHOW_SIGALGO:-false} # "secret" switch whether testssl.sh shows the signature algorithm for -E / -e
SNEAKY=${SNEAKY:-false} # is the referer and useragent we leave behind just usual?
QUIET=${QUIET:-false} # don't output the banner. By doing this you acknowledge usage term appearing in the banner
SSL_NATIVE=${SSL_NATIVE:-false} # we do per default bash sockets where possible "true": switch back to "openssl native"
ASSUME_HTTP=${ASSUME_HTTP:-false} # in seldom cases (WAF, old servers, grumpy SSL) service detection fails. "True" enforces HTTP checks
BASICAUTH=${BASICAUTH:-""} # HTTP basic auth credentials can be set here like user:pass
REQHEADER=${REQHEADER:-""} # HTTP custom request header can be set here like Header: content. Can be used multiple times.
BUGS=${BUGS:-""} # -bugs option from openssl, needed for some BIG IP F5
WARNINGS=${WARNINGS:-""} # can be either off or batch
DEBUG=${DEBUG:-0} # 1: normal output the files in /tmp/ are kept for further debugging purposes
# 2: list more what's going on , also lists some errors of connections
# 3: slight hexdumps + other info,
# 4: display bytes sent via sockets
# 5: display bytes received via sockets
# 6: whole 9 yards
FAST=${FAST:-false} # preference: show only first cipher, run_allciphers with openssl instead of sockets
WIDE=${WIDE:-false} # whether to display for some options just ciphers or a table w hexcode/KX,Enc,strength etc.
MASS_TESTING_MODE=${MASS_TESTING_MODE:-serial} # can be serial or parallel. Subject to change
LOGFILE="${LOGFILE:-""}" # logfile if used
JSONFILE="${JSONFILE:-""}" # jsonfile if used
CSVFILE="${CSVFILE:-""}" # csvfile if used
HTMLFILE="${HTMLFILE:-""}" # HTML if used
FNAME=${FNAME:-""} # file name to read commands from
FNAME_PREFIX=${FNAME_PREFIX:-""} # output filename prefix, see --outprefix
APPEND=${APPEND:-false} # append to csv/json/html/log file
OVERWRITE=${OVERWRITE:-false} # overwriting csv/json/html/log file
[[ -z "$NODNS" ]] && declare NODNS # If unset it does all DNS lookups per default. "min" only for hosts or "none" at all
HAS_IPv6=${HAS_IPv6:-false} # if you have OpenSSL with IPv6 support AND IPv6 networking set it to yes
ALL_CLIENTS=${ALL_CLIENTS:-false} # do you want to run all client simulation form all clients supplied by SSLlabs?
OFFENSIVE=${OFFENSIVE:-true} # do you want to include offensive vulnerability tests which may cause blocking by an IDS?
ADDTL_CA_FILES="${ADDTL_CA_FILES:-""}" # single file with a CA in PEM format or comma separated lists of them
########### Tuning vars which cannot be set by a cmd line switch. Use instead e.g "HEADER_MAXSLEEP=10 ./testssl.sh <your_args_here>"
#
TESTSSL_INSTALL_DIR="${TESTSSL_INSTALL_DIR:-""}" # If you run testssl.sh and it doesn't find it necessary file automagically set TESTSSL_INSTALL_DIR
CA_BUNDLES_PATH="${CA_BUNDLES_PATH:-""}" # You can have your CA stores some place else
EXPERIMENTAL=${EXPERIMENTAL:-false} # a development hook which allows us to disable code
PROXY_WAIT=${PROXY_WAIT:-20} # waiting at max 20 seconds for socket reply through proxy
DNS_VIA_PROXY=${DNS_VIA_PROXY:-true} # do DNS lookups via proxy. --ip=proxy reverses this
IGN_OCSP_PROXY=${IGN_OCSP_PROXY:-false} # Also when --proxy is supplied it is ignored when testing for revocation via OCSP via --phone-out
HEADER_MAXSLEEP=${HEADER_MAXSLEEP:-5} # we wait this long before killing the process to retrieve a service banner / http header
MAX_SOCKET_FAIL=${MAX_SOCKET_FAIL:-2} # If this many failures for TCP socket connects are reached we terminate
MAX_OSSL_FAIL=${MAX_OSSL_FAIL:-2} # If this many failures for s_client connects are reached we terminate
MAX_STARTTLS_FAIL=${MAX_STARTTLS_FAIL:-2} # max number of STARTTLS handshake failures in plaintext phase
MAX_HEADER_FAIL=${MAX_HEADER_FAIL:-2} # If this many failures for HTTP GET are encountered we don't try again to get the header
MAX_WAITSOCK=${MAX_WAITSOCK:-10} # waiting at max 10 seconds for socket reply. There shouldn't be any reason to change this.
CCS_MAX_WAITSOCK=${CCS_MAX_WAITSOCK:-5} # for the two CCS payload (each). There shouldn't be any reason to change this.
HEARTBLEED_MAX_WAITSOCK=${HEARTBLEED_MAX_WAITSOCK:-8} # for the heartbleed payload. There shouldn't be any reason to change this.
STARTTLS_SLEEP=${STARTTLS_SLEEP:-10} # max time wait on a socket for STARTTLS. MySQL has a fixed value of 1 which can't be overwritten (#914)
FAST_STARTTLS=${FAST_STARTTLS:-true} # at the cost of reliability decrease the handshakes for STARTTLS
USLEEP_SND=${USLEEP_SND:-0.1} # sleep time for general socket send
USLEEP_REC=${USLEEP_REC:-0.2} # sleep time for general socket receive
HSTS_MIN=${HSTS_MIN:-180} # >=180 days is ok for HSTS
HSTS_MIN=$((HSTS_MIN * 86400)) # correct to seconds
HPKP_MIN=${HPKP_MIN:-30} # >=30 days should be ok for HPKP_MIN, practical hints?
HPKP_MIN=$((HPKP_MIN * 86400)) # correct to seconds
DAYS2WARN1=${DAYS2WARN1:-60} # days to warn before cert expires, threshold 1
DAYS2WARN2=${DAYS2WARN2:-30} # days to warn before cert expires, threshold 2
VULN_THRESHLD=${VULN_THRESHLD:-1} # if vulnerabilities to check >$VULN_THRESHLD we DON'T show a separate header line in the output each vuln. check
UNBRACKTD_IPV6=${UNBRACKTD_IPV6:-false} # some versions of OpenSSL (like Gentoo) don't support [bracketed] IPv6 addresses
NO_ENGINE=${NO_ENGINE:-false} # if there are problems finding the (external) openssl engine set this to true
declare -r CLIENT_MIN_FS=5 # number of ciphers needed to run a test for FS
CAPATH="${CAPATH:-/etc/ssl/certs/}" # Does nothing yet (FC has only a CA bundle per default, ==> openssl version -d)
SOCAT="${SOCAT:-}" # For now we would need this for STARTTLS injection
MEASURE_TIME_FILE=${MEASURE_TIME_FILE:-""}
if [[ -n "$MEASURE_TIME_FILE" ]] && [[ -z "$MEASURE_TIME" ]]; then
MEASURE_TIME=true
else
MEASURE_TIME=${MEASURE_TIME:-false}
fi
DISPLAY_CIPHERNAMES="openssl" # display OpenSSL ciphername (but both OpenSSL and RFC ciphernames in wide mode)
declare UA_STD="TLS tester from $SWURL"
declare -r UA_SNEAKY="Mozilla/5.0 (X11; Linux x86_64; rv:52.0) Gecko/20100101 Firefox/52.0"
SSL_RENEG_ATTEMPTS=${SSL_RENEG_ATTEMPTS:-6} # number of times to check SSL Renegotiation
########### Initialization part, further global vars just being declared here
#
LC_COLLATE=en_US.UTF-8 # ensures certain regex patterns work as expected and aren't localized, see #1860
SYSTEM2="" # currently only being used for WSL = bash on windows
PRINTF="" # which external printf to use. Empty presets the internal one, see #1130
CIPHERS_BY_STRENGTH_FILE=""
TLS_DATA_FILE="" # mandatory file for socket-based handshakes
OPENSSL="" # If you run this from GitHub it's ~/bin/openssl.$(uname).$(uname -m) otherwise /usr/bin/openssl
OPENSSL2="" # When running from GitHub, this will be openssl version >=1.1.1 (auto determined)
OPENSSL_LOCATION=""
IKNOW_FNAME=false
FIRST_FINDING=true # is this the first finding we are outputting to file?
JSONHEADER=true # include JSON headers and footers in HTML file, if one is being created
CSVHEADER=true # same for CSV
HTMLHEADER=true # same for HTML
SECTION_FOOTER_NEEDED=false # kludge for tracking whether we need to close the JSON section object
GIVE_HINTS=false # give an additional info to findings
SERVER_SIZE_LIMIT_BUG=false # Some servers have either a ClientHello total size limit or a 128 cipher limit (e.g. old ASAs)
MULTIPLE_CHECKS=false # need to know whether an MX record or a hostname resolves to multiple IPs to check
CHILD_MASS_TESTING=${CHILD_MASS_TESTING:-false}
PARENT_LOGFILE="" # logfile if mass testing and all output sent to a single file
PARENT_JSONFILE="" # jsonfile if mass testing and all output sent to a single file
PARENT_CSVFILE="" # csvfile if mass testing and all output sent to a single file
PARENT_HTMLFILE="" # HTML if mass testing and all output sent to a single file
TIMEOUT_CMD=""
HAD_SLEPT=0
NR_SOCKET_FAIL=0 # Counter for socket failures
NR_OSSL_FAIL=0 # .. for OpenSSL connects
NR_STARTTLS_FAIL=0 # .. for STARTTLS failures
NR_HEADER_FAIL=0 # .. for HTTP_GET
PROTOS_OFFERED="" # This keeps which protocol is being offered. See has_server_protocol().
TLS12_CIPHER_OFFERED="" # This contains the hexcode of a cipher known to be supported by the server with TLS 1.2
CURVES_OFFERED="" # This keeps which curves have been detected. Just for error handling
KNOWN_OSSL_PROB=false # We need OpenSSL a few times. This variable is an indicator if we can't connect. Eases handling
DETECTED_TLS_VERSION="" # .. as hex string, e.g. 0300 or 0303
APP_TRAF_KEY_INFO="" # Information about the application traffic keys for a TLS 1.3 connection.
TLS13_ONLY=false # Does the server support TLS 1.3 ONLY?
OSSL_SHORTCUT=${OSSL_SHORTCUT:-false} # Hack: if during the scan turns out the OpenSSL binary suports TLS 1.3 would be a better choice, this enables it.
TLS_EXTENSIONS=""
V2_HELLO_CIPHERSPEC_LENGTH=0
declare -r NPN_PROTOs="spdy/4a2,spdy/3,spdy/3.1,spdy/2,spdy/1,http/1.1"
# alpn_protos needs to be space-separated, not comma-seperated, including odd ones observed @ facebook and others, old ones like h2-17 omitted as they could not be found
declare -r ALPN_PROTOs="h2 spdy/3.1 http/1.1 grpc-exp h2-fb spdy/1 spdy/2 spdy/3 stun.turn stun.nat-discovery webrtc c-webrtc ftp"
TEMPDIR=""
TMPFILE=""
ERRFILE=""
CLIENT_AUTH="none"
CLIENT_AUTH_CA_LIST=""
TLS_TICKETS=false
NO_SSL_SESSIONID=false
CERT_COMPRESSION=${CERT_COMPRESSION:-false} # secret flag to set in addition to --devel for certificate compression
HOSTCERT="" # File with host certificate, without intermediate certificate
HEADERFILE=""
HEADERVALUE=""
HTTP_STATUS_CODE=""
DH_GROUP_OFFERED=""
DH_GROUP_LEN_P=0
KEY_SHARE_EXTN_NR="33" # The extension number for key_share was changed from 40 to 51 in TLSv1.3 draft 23.
# In order to support draft 23 and later in addition to earlier drafts, need to
# know which extension number to use. Note that it appears that a single
# ClientHello cannot advertise both draft 23 and later and earlier drafts.
# Preset may help to deal with STARTTLS + TLS 1.3 draft 23 and later but not earlier.
BAD_SERVER_HELLO_CIPHER=false # reserved for cases where a ServerHello doesn't contain a cipher offered in the ClientHello
GOST_STATUS_PROBLEM=false
PATTERN2SHOW=""
SOCK_REPLY_FILE=""
NW_STR=""
LEN_STR=""
SNI=""
POODLE="" # keep vulnerability status for TLS_FALLBACK_SCSV
# Initialize OpenSSL variables (and others)
OSSL_NAME="" # openssl name, in case of LibreSSL it's LibreSSL
OSSL_VER="" # openssl version, will be auto-determined
OSSL_VER_MAJOR=0
OSSL_VER_MINOR=0
OSSL_VER_APPENDIX="none"
CLIENT_PROB_NO=1
GOOD_CA_BUNDLE="" # A bundle of CA certificates that can be used to validate the server's certificate
CERTIFICATE_LIST_ORDERING_PROBLEM=false # Set to true if server sends a certificate list that contains a certificate
# that does not certify the one immediately preceding it. (See RFC 8446, Section 4.4.2)
STAPLED_OCSP_RESPONSE=""
HAS_DNS_SANS=false # Whether the certificate includes a subjectAltName extension with a DNS name or an application-specific identifier type.
HAS_DH_BITS=${HAS_DH_BITS:-false} # These are variables which are set by find_openssl_binary()
HAS_CURVES=false
OSSL_SUPPORTED_CURVES=""
HAS_SSL2=false
HAS_SSL3=false
HAS_TLS13=false
HAS_X448=false
HAS_X25519=false
HAS_SIGALGS=false
HAS_PKUTIL=false
HAS_PKEY=false
HAS_NO_SSL2=false
HAS_NOSERVERNAME=false
HAS_CIPHERSUITES=false
HAS_SECLEVEL=false
HAS_COMP=false
HAS_NO_COMP=false
HAS_ALPN=false
HAS_NPN=false
HAS_FALLBACK_SCSV=false
HAS_PROXY=false
HAS_XMPP=false
HAS_XMPP_SERVER=false
HAS_POSTGRES=false
HAS_MYSQL=false
HAS_LMTP=false
HAS_NNTP=false
HAS_IRC=false
HAS_CHACHA20=false
HAS_AES128_GCM=false
HAS_AES256_GCM=false
HAS_ZLIB=false
HAS_UDS=false
HAS_UDS2=false
HAS_DIG=false
HAS_DIG_R=true
DIG_R="-r"
HAS_HOST=false
HAS_DRILL=false
HAS_NSLOOKUP=false
HAS_IDN=false
HAS_IDN2=false
HAS_AVAHIRESOLVE=false
HAS_DIG_NOIDNOUT=false
HAS_XXD=false
OSSL_CIPHERS_S=""
PORT=443 # unless otherwise auto-determined, see below
NODE=""
NODEIP=""
rDNS=""
CORRECT_SPACES="" # Used for IPv6 and proper output formatting
IPADDRs=""
IP46ADDRs=""
LOCAL_A=false # Does the $NODEIP come from /etc/hosts?
LOCAL_AAAA=false # Does the IPv6 IP come from /etc/hosts?
XMPP_HOST=""
PROXYIP="" # $PROXYIP:$PROXPORT is your proxy if --proxy is defined ...
PROXYPORT="" # ... and openssl has proxy support
PROXY="" # Once check_proxy() executed it contains $PROXYIP:$PROXPORT
VULN_COUNT=0
SERVICE="" # Is the server running an HTTP server, SMTP, POP or IMAP?
URI=""
CERT_FINGERPRINT_SHA2=""
RSA_CERT_FINGERPRINT_SHA2=""
STARTTLS_PROTOCOL=""
OPTIMAL_PROTO="" # Need this for IIS6 (sigh) + OpenSSL 1.0.2, otherwise some handshakes will fail see
# https://github.com/PeterMosmans/openssl/issues/19#issuecomment-100897892
STARTTLS_OPTIMAL_PROTO="" # Same for STARTTLS, see https://github.com/drwetter/testssl.sh/issues/188
OPTIMAL_SOCKETS_PROTO="" # Same for tls_sockets(). -- not yet used
ALL_FAILED_SOCKETS=true # Set to true if all attempts to connect to server using tls_sockets/sslv2_sockets failed
TLS_TIME="" # To keep the value of TLS server timestamp
TLS_NOW="" # Similar
TLS_DIFFTIME_SET=false # Tells TLS functions to measure the TLS difftime or not
NOW_TIME=""
HTTP_TIME=""
REQHEADERS=()
GET_REQ11=""
START_TIME=0 # time in epoch when the action started
END_TIME=0 # .. ended
SCAN_TIME=0 # diff of both: total scan time
LAST_TIME=0 # only used for performance measurements (MEASURE_TIME=true)
SERVER_COUNTER=0 # Counter for multiple servers
TLS_LOW_BYTE="" # For "secret" development stuff, see -q below
HEX_CIPHER="" # "
GRADE_CAP="" # Keeps track of the current grading cap
GRADE_CAP_REASONS=() # Keeps track of all the reasons why grades are capped
GRADE_WARNINGS=() # Keeps track of all the grade warnings
KEY_EXCH_SCORE=100 # Keeps track of the score for category 2 "Key Exchange Strength"
CIPH_STR_BEST=0 # Keeps track of the best bit size for category 3 "Cipher Strength"
CIPH_STR_WORST=100000 # Keeps track of the worst bit size for category 3 "Cipher Strength"
# Intentionally set very high, so it can be set to 0, if necessary
########### Global variables for parallel mass testing
#
declare -r PARALLEL_SLEEP=1 # Time to sleep after starting each test
MAX_WAIT_TEST=${MAX_WAIT_TEST:-1200} # Maximum time (in seconds) to wait for a test to complete
MAX_PARALLEL=${MAX_PARALLEL:-20} # Maximum number of tests to run in parallel
# This value may be made larger on systems with faster processors
declare -a -i PARALLEL_TESTING_PID=() # process id for each child test (or 0 to indicate test has already completed)
declare -a PARALLEL_TESTING_CMDLINE=() # command line for each child test
declare -i NR_PARALLEL_TESTS=0 # number of parallel tests run
declare -i NEXT_PARALLEL_TEST_TO_FINISH=0 # number of parallel tests that have completed and have been processed
declare FIRST_JSON_OUTPUT=true # true if no output has been added to $JSONFILE yet.
########### Cipher suite information
#
declare -i TLS_NR_CIPHERS=0
declare TLS_CIPHER_HEXCODE=()
declare TLS_CIPHER_OSSL_NAME=()
declare TLS_CIPHER_RFC_NAME=()
declare TLS_CIPHER_SSLVERS=()
declare TLS_CIPHER_KX=()
declare TLS_CIPHER_AUTH=()
declare TLS_CIPHER_ENC=()
declare TLS_CIPHER_EXPORT=()
declare TLS_CIPHER_OSSL_SUPPORTED=()
declare TLS13_OSSL_CIPHERS="TLS_AES_128_GCM_SHA256:TLS_AES_256_GCM_SHA384:TLS_CHACHA20_POLY1305_SHA256:TLS_AES_128_CCM_SHA256:TLS_AES_128_CCM_8_SHA256"
########### Some predefinitions: date, sed (we always use tests for binaries and NOT try to determine
# capabilities by querying the OS)
#
HAS_GNUDATE=false
HAS_FREEBSDDATE=false
HAS_OPENBSDDATE=false
if date -d @735275209 >/dev/null 2>&1; then
if date -r @735275209 >/dev/null 2>&1; then
# It can't do any conversion from a plain date output.
HAS_OPENBSDDATE=true
else
HAS_GNUDATE=true
fi
fi
# FreeBSD and OS X date(1) accept "-f inputformat", so do newer OpenBSD versions >~ 6.6.
date -j -f '%s' 1234567 >/dev/null 2>&1 && \
HAS_FREEBSDDATE=true
echo A | sed -E 's/A//' >/dev/null 2>&1 && \
declare -r HAS_SED_E=true || \
declare -r HAS_SED_E=false
########### Terminal defintions
tty -s && \
declare -r INTERACTIVE=true || \
declare -r INTERACTIVE=false
if [[ -z $TERM_WIDTH ]]; then # No batch file and no otherwise predefined TERM_WIDTH
if ! tput cols &>/dev/null || ! "$INTERACTIVE";then # Prevent tput errors if running non interactive
export TERM_WIDTH=${COLUMNS:-80}
else
export TERM_WIDTH=${COLUMNS:-$(tput cols)} # For custom line wrapping and dashes
fi
fi
TERM_CURRPOS=0 # Custom line wrapping needs alter the current horizontal cursor pos
########### Severity functions and globals
#
INFO=0
OK=0
LOW=1
MEDIUM=2
HIGH=3
CRITICAL=4
SEVERITY_LEVEL=0
set_severity_level() {
local severity=$1
if [[ "$severity" == LOW ]]; then
SEVERITY_LEVEL=$LOW
elif [[ "$severity" == MEDIUM ]]; then
SEVERITY_LEVEL=$MEDIUM
elif [[ "$severity" == HIGH ]]; then
SEVERITY_LEVEL=$HIGH
elif [[ "$severity" == CRITICAL ]]; then
SEVERITY_LEVEL=$CRITICAL
else
# WARN and FATAL will always be logged as the represent scanning problems
echo "Supported severity levels are LOW, MEDIUM, HIGH, CRITICAL!"
help 1
fi
}
show_finding() {
local severity=$1
( [[ "$severity" == DEBUG ]] ) ||
( [[ "$severity" == INFO ]] && [[ $SEVERITY_LEVEL -le $INFO ]] ) ||
( [[ "$severity" == OK ]] && [[ $SEVERITY_LEVEL -le $OK ]] ) ||
( [[ "$severity" == LOW ]] && [[ $SEVERITY_LEVEL -le $LOW ]] ) ||
( [[ "$severity" == MEDIUM ]] && [[ $SEVERITY_LEVEL -le $MEDIUM ]] ) ||
( [[ "$severity" == HIGH ]] && [[ $SEVERITY_LEVEL -le $HIGH ]] ) ||
( [[ "$severity" == CRITICAL ]] && [[ $SEVERITY_LEVEL -le $CRITICAL ]] ) ||
( [[ "$severity" == WARN ]] ) ||
( [[ "$severity" == FATAL ]] )
}
########### Output functions
# For HTML output, replace any HTML reserved characters with the entity name
html_reserved(){
local output
"$do_html" || return 0
#sed -e 's/\&/\&amp;/g' -e 's/</\&lt;/g' -e 's/>/\&gt;/g' -e 's/"/\&quot;/g' -e "s/'/\&apos;/g" <<< "$1"
output="${1//&/&amp;}"
output="${output//</&lt;}"
output="${output//>/&gt;}"
output="${output//\"/&quot;}"
output="${output//\'/&apos;}"
printf -- "%s" "$output"
return 0
}
html_out() {
"$do_html" || return 0
[[ -n "$HTMLFILE" ]] && [[ ! -d "$HTMLFILE" ]] && printf -- "%b" "$1" >> "$HTMLFILE"
}
# This is intentionally the same.
safe_echo() { printf -- "%b" "$1"; }
tm_out() { printf -- "%b" "$1"; }
tmln_out() { printf -- "%b" "$1\n"; }
out() { printf -- "%b" "$1"; html_out "$(html_reserved "$1")"; }
outln() { printf -- "%b" "$1\n"; html_out "$(html_reserved "$1")\n"; }
#TODO: Still no shell injection safe but if just run it from the cmd line: that's fine
# Color print functions, see also https://www.tldp.org/HOWTO/Bash-Prompt-HOWTO/x329.html
tm_liteblue() { [[ "$COLOR" -ge 2 ]] && ( "$COLORBLIND" && tm_out "\033[0;32m$1" || tm_out "\033[0;34m$1" ) || tm_out "$1"; tm_off; } # not yet used
pr_liteblue() { tm_liteblue "$1"; [[ "$COLOR" -ge 2 ]] && ( "$COLORBLIND" && html_out "<span style=\"color:#008817;\">$(html_reserved "$1")</span>" || html_out "<span style=\"color:#0000ee;\">$(html_reserved "$1")</span>" ) || html_out "$(html_reserved "$1")"; }
tmln_liteblue() { tm_liteblue "$1"; tmln_out; }
prln_liteblue() { pr_liteblue "$1"; outln; }
tm_blue() { [[ "$COLOR" -ge 2 ]] && ( "$COLORBLIND" && tm_out "\033[1;32m$1" || tm_out "\033[1;34m$1" ) || tm_out "$1"; tm_off; } # used for head lines of single tests
pr_blue() { tm_blue "$1"; [[ "$COLOR" -ge 2 ]] && ( "$COLORBLIND" && html_out "<span style=\"color:#008817;font-weight:bold;\">$(html_reserved "$1")</span>" || html_out "<span style=\"color:#5c5cff;font-weight:bold;\">$(html_reserved "$1")</span>" ) || html_out "$(html_reserved "$1")"; }
tmln_blue() { tm_blue "$1"; tmln_out; }
prln_blue() { pr_blue "$1"; outln; }
# we should be able to use aliases here
tm_warning() { [[ "$COLOR" -ge 2 ]] && tm_out "\033[0;35m$1" || tm_underline "$1"; tm_off; } # some local problem: one test cannot be done
tmln_warning() { tm_warning "$1"; tmln_out; } # litemagenta
pr_warning() { tm_warning "$1"; [[ "$COLOR" -ge 2 ]] && html_out "<span style=\"color:#cd00cd;\">$(html_reserved "$1")</span>" || ( [[ "$COLOR" -eq 1 ]] && html_out "<u>$(html_reserved "$1")</u>" || html_out "$(html_reserved "$1")" ); }
prln_warning() { pr_warning "$1"; outln; }
tm_magenta() { [[ "$COLOR" -ge 2 ]] && tm_out "\033[1;35m$1" || tm_underline "$1"; tm_off; } # fatal error: quitting because of this!
tmln_magenta() { tm_magenta "$1"; tmln_out; }
# different as warning above?
pr_magenta() { tm_magenta "$1"; [[ "$COLOR" -ge 2 ]] && html_out "<span style=\"color:#be32d0;font-weight:bold;\">$(html_reserved "$1")</span>" || ( [[ "$COLOR" -eq 1 ]] && html_out "<u>$(html_reserved "$1")</u>" || html_out "$(html_reserved "$1")" ); }
prln_magenta() { pr_magenta "$1"; outln; }
tm_litecyan() { [[ "$COLOR" -ge 2 ]] && tm_out "\033[0;36m$1" || tm_out "$1"; tm_off; } # not yet used
tmln_litecyan() { tm_litecyan "$1"; tmln_out; }
pr_litecyan() { tm_litecyan "$1"; [[ "$COLOR" -ge 2 ]] && html_out "<span style=\"color:#168092;\">$(html_reserved "$1")</span>" || html_out "$(html_reserved "$1")"; }
prln_litecyan() { pr_litecyan "$1"; outln; }
tm_cyan() { [[ "$COLOR" -ge 2 ]] && tm_out "\033[1;36m$1" || tm_out "$1"; tm_off; } # additional hint
tmln_cyan() { tm_cyan "$1"; tmln_out; }
pr_cyan() { tm_cyan "$1"; [[ "$COLOR" -ge 2 ]] && html_out "<span style=\"color:#0d7ea2;font-weight:bold;\">$(html_reserved "$1")</span>" || html_out "$(html_reserved "$1")"; }
prln_cyan() { pr_cyan "$1"; outln; }
tm_litegrey() { [[ "$COLOR" -ne 0 ]] && tm_out "\033[0;37m$1" || tm_out "$1"; tm_off; } # ... https://github.com/drwetter/testssl.sh/pull/600#issuecomment-276129876
tmln_litegrey() { tm_litegrey "$1"; tmln_out; } # not really usable on a black background, see ..
prln_litegrey() { pr_litegrey "$1"; outln; }
pr_litegrey() { tm_litegrey "$1"; [[ "$COLOR" -ne 0 ]] && html_out "<span style=\"color:#71767a;\">$(html_reserved "$1")</span>" || html_out "$(html_reserved "$1")"; }
tm_grey() { [[ "$COLOR" -ne 0 ]] && tm_out "\033[1;30m$1" || tm_out "$1"; tm_off; }
pr_grey() { tm_grey "$1"; [[ "$COLOR" -ne 0 ]] && html_out "<span style=\"color:#757575;font-weight:bold;\">$(html_reserved "$1")</span>" || html_out "$(html_reserved "$1")"; }
tmln_grey() { tm_grey "$1"; tmln_out; }
prln_grey() { pr_grey "$1"; outln; }
tm_svrty_good() { [[ "$COLOR" -ge 2 ]] && ( "$COLORBLIND" && tm_out "\033[0;34m$1" || tm_out "\033[0;32m$1" ) || tm_out "$1"; tm_off; } # litegreen (liteblue), This is good
tmln_svrty_good() { tm_svrty_good "$1"; tmln_out; }
pr_svrty_good() { tm_svrty_good "$1"; [[ "$COLOR" -ge 2 ]] && ( "$COLORBLIND" && html_out "<span style=\"color:#0000ee;\">$(html_reserved "$1")</span>" || html_out "<span style=\"color:#008817;\">$(html_reserved "$1")</span>" ) || html_out "$(html_reserved "$1")"; }
prln_svrty_good() { pr_svrty_good "$1"; outln; }
tm_svrty_best() { [[ "$COLOR" -ge 2 ]] && ( "$COLORBLIND" && tm_out "\033[1;34m$1" || tm_out "\033[1;32m$1" ) || tm_out "$1"; tm_off; } # green (blue), This is the best
tmln_svrty_best() { tm_svrty_best "$1"; tmln_out; }
pr_svrty_best() { tm_svrty_best "$1"; [[ "$COLOR" -ge 2 ]] && ( "$COLORBLIND" && html_out "<span style=\"color:#5c5cff;font-weight:bold;\">$(html_reserved "$1")</span>" || html_out "<span style=\"color:#008817;font-weight:bold;\">$(html_reserved "$1")</span>" ) || html_out "$(html_reserved "$1")"; }
prln_svrty_best() { pr_svrty_best "$1"; outln; }
tm_svrty_low() { [[ "$COLOR" -ge 2 ]] && tm_out "\033[1;33m$1" || tm_out "$1"; tm_off; } # yellow brown | academic or minor problem
tmln_svrty_low() { tm_svrty_low "$1"; tmln_out; }
pr_svrty_low() { tm_svrty_low "$1"; [[ "$COLOR" -ge 2 ]] && html_out "<span style=\"color:#a86437;\">$(html_reserved "$1")</span>" || html_out "$(html_reserved "$1")"; }
prln_svrty_low() { pr_svrty_low "$1"; outln; }
tm_svrty_medium() { [[ "$COLOR" -ge 2 ]] && tm_out "\033[0;33m$1" || tm_out "$1"; tm_off; } # brown | it is not a bad problem but you shouldn't do this
pr_svrty_medium() { tm_svrty_medium "$1"; [[ "$COLOR" -ge 2 ]] && html_out "<span style=\"color:#c05600;\">$(html_reserved "$1")</span>" || html_out "$(html_reserved "$1")"; }
tmln_svrty_medium(){ tm_svrty_medium "$1"; tmln_out; }
prln_svrty_medium(){ pr_svrty_medium "$1"; outln; }
tm_svrty_high() { [[ "$COLOR" -ge 2 ]] && tm_out "\033[0;31m$1" || tm_bold "$1"; tm_off; } # litered
pr_svrty_high() { tm_svrty_high "$1"; [[ "$COLOR" -ge 2 ]] && html_out "<span style=\"color:#e52207;\">$(html_reserved "$1")</span>" || ( [[ "$COLOR" -eq 1 ]] && html_out "<span style=\"font-weight:bold;\">$(html_reserved "$1")</span>" || html_out "$(html_reserved "$1")" ); }
tmln_svrty_high() { tm_svrty_high "$1"; tmln_out; }
prln_svrty_high() { pr_svrty_high "$1"; outln; }
tm_svrty_critical() { [[ "$COLOR" -ge 2 ]] && tm_out "\033[1;31m$1" || tm_bold "$1"; tm_off; } # red
pr_svrty_critical() { tm_svrty_critical "$1"; [[ "$COLOR" -ge 2 ]] && html_out "<span style=\"color:#e52207;font-weight:bold;\">$(html_reserved "$1")</span>" || ( [[ "$COLOR" -eq 1 ]] && html_out "<span style=\"font-weight:bold;\">$(html_reserved "$1")</span>" || html_out "$(html_reserved "$1")" ); }
tmln_svrty_critical() { tm_svrty_critical "$1"; tmln_out; }
prln_svrty_critical() { pr_svrty_critical "$1"; outln; }
tm_deemphasize() { tm_out "$1"; } # hook for a weakened screen output, see #600
pr_deemphasize() { tm_deemphasize "$1"; html_out "<span style=\"color:#71767a;\">$(html_reserved "$1")</span>"; }
tmln_deemphasize() { tm_deemphasize "$1"; tmln_out; }
prln_deemphasize() { pr_deemphasize "$1"; outln; }
# color=1 functions
tm_off() { [[ "$COLOR" -ne 0 ]] && tm_out "\033[m"; }
tm_bold() { [[ "$COLOR" -ne 0 ]] && tm_out "\033[1m$1" || tm_out "$1"; tm_off; }
tmln_bold() { tm_bold "$1"; tmln_out; }
pr_bold() { tm_bold "$1"; [[ "$COLOR" -ne 0 ]] && html_out "<span style=\"font-weight:bold;\">$(html_reserved "$1")</span>" || html_out "$(html_reserved "$1")"; }
prln_bold() { pr_bold "$1" ; outln; }
NO_ITALICS=false
if [[ $TERM == screen ]]; then
NO_ITALICS=true
elif [[ $SYSTEM == OpenBSD ]]; then
NO_ITALICS=true
elif [[ $SYSTEM == FreeBSD ]]; then
if [[ ${SYSTEMREV%\.*} -le 9 ]]; then
NO_ITALICS=true
fi
fi
tm_italic() { ( [[ "$COLOR" -ne 0 ]] && ! "$NO_ITALICS" ) && tm_out "\033[3m$1" || tm_out "$1"; tm_off; }
tmln_italic() { tm_italic "$1" ; tmln_out; }
pr_italic() { tm_italic "$1"; [[ "$COLOR" -ne 0 ]] && html_out "<i>$(html_reserved "$1")</i>" || html_out "$(html_reserved "$1")"; }
prln_italic() { pr_italic "$1"; outln; }
tm_strikethru() { [[ "$COLOR" -ne 0 ]] && tm_out "\033[9m$1" || tm_out "$1"; tm_off; } # ugly!
tmln_strikethru() { tm_strikethru "$1"; tmln_out; }
pr_strikethru() { tm_strikethru "$1"; [[ "$COLOR" -ne 0 ]] && html_out "<strike>$(html_reserved "$1")</strike>" || html_out "$(html_reserved "$1")"; }
prln_strikethru() { pr_strikethru "$1" ; outln; }
tm_underline() { [[ "$COLOR" -ne 0 ]] && tm_out "\033[4m$1" || tm_out "$1"; tm_off; }
tmln_underline() { tm_underline "$1"; tmln_out; }
pr_underline() { tm_underline "$1"; [[ "$COLOR" -ne 0 ]] && html_out "<u>$(html_reserved "$1")</u>" || html_out "$(html_reserved "$1")"; }
prln_underline() { pr_underline "$1"; outln; }
tm_reverse() { [[ "$COLOR" -ne 0 ]] && tm_out "\033[7m$1" || tm_out "$1"; tm_off; }
tm_reverse_bold() { [[ "$COLOR" -ne 0 ]] && tm_out "\033[7m\033[1m$1" || tm_out "$1"; tm_off; }
pr_reverse() { tm_reverse "$1"; [[ "$COLOR" -ne 0 ]] && html_out "<span style=\"color:white;background-color:black;\">$(html_reserved "$1")</span>" || html_out "$(html_reserved "$1")"; }
pr_reverse_bold() { tm_reverse_bold "$1"; [[ "$COLOR" -ne 0 ]] && html_out "<span style=\"color:white;background-color:black;font-weight:bold;\">$(html_reserved "$1")</span>" || html_out "$(html_reserved "$1")"; }
#pr_headline() { pr_blue "$1"; }
#https://misc.flogisoft.com/bash/tip_colors_and_formatting
#pr_headline() { [[ "$COLOR" -ge 2 ]] && out "\033[1;30m\033[47m$1" || out "$1"; tm_off; }
tm_headline() { [[ "$COLOR" -ne 0 ]] && tm_out "\033[1m\033[4m$1" || tm_out "$1"; tm_off; }
tmln_headline() { tm_headline "$1"; tmln_out; }
pr_headline() { tm_headline "$1"; [[ "$COLOR" -ne 0 ]] && html_out "<span style=\"text-decoration:underline;font-weight:bold;\">$(html_reserved "$1")</span>" || html_out "$(html_reserved "$1")"; }
pr_headlineln() { pr_headline "$1" ; outln; }
tm_squoted() { tm_out "'$1'"; }
pr_squoted() { out "'$1'"; }
tm_dquoted() { tm_out "\"$1\""; }
pr_dquoted() { out "\"$1\""; }
# either files couldn't be found or openssl isn't good enough (which shouldn't happen anymore)
tm_local_problem() { tm_warning "Local problem: $1"; }
tmln_local_problem() { tmln_warning "Local problem: $1"; }
pr_local_problem() { pr_warning "Local problem: $1"; }
prln_local_problem() { prln_warning "Local problem: $1"; }
# general failure
tm_fixme() { tm_warning "Fixme: $1"; }
tmln_fixme() { tmln_warning "Fixme: $1"; }
pr_fixme() { pr_warning "Fixme: $1"; }
prln_fixme() { prln_warning "Fixme: $1"; }
pr_url() { tm_out "$1"; html_out "<a href=\"$1\" style=\"color:black;text-decoration:none;\">$1</a>"; }
pr_boldurl() { tm_bold "$1"; html_out "<a href=\"$1\" style=\"font-weight:bold;color:black;text-decoration:none;\">$1</a>"; }
### color switcher (see e.g. https://linuxtidbits.wordpress.com/2008/08/11/output-color-on-bash-scripts/
### https://www.tldp.org/HOWTO/Bash-Prompt-HOWTO/x405.html
### no output support for HTML!
set_color_functions() {
local ncurses_tput=true
if [[ $SYSTEM == OpenBSD ]] && [[ "$TERM" =~ xterm-256 ]]; then
export TERM=xterm
# OpenBSD can't handle 256 colors (yet) in xterm which might lead to ugly errors
# like "tput: not enough arguments (3) for capability `AF'". Not our fault but
# before we get blamed we fix it here.
fi
# Empty all vars if we have COLOR=0 equals no escape code -- these are globals:
red=""
green=""
brown=""
blue=""
magenta=""
cyan=""
grey=""
yellow=""
off=""
bold=""
underline=""
italic=""
type -p tput &>/dev/null || return 0 # Hey wait, do we actually have tput / ncurses ?
tput cols &>/dev/null || return 0 # tput under BSDs and GNUs doesn't work either (TERM undefined?)
tput sgr0 &>/dev/null || ncurses_tput=false
if [[ "$COLOR" -ge 2 ]]; then
if $ncurses_tput; then
red=$(tput setaf 1)
green=$(tput setaf 2)
brown=$(tput setaf 3)
blue=$(tput setaf 4)
magenta=$(tput setaf 5)
cyan=$(tput setaf 6)
grey=$(tput setaf 7)
yellow=$(tput setaf 3; tput bold)
else # this is a try for old BSD, see terminfo(5)
red=$(tput AF 1)
green=$(tput AF 2)
brown=$(tput AF 3)
blue=$(tput AF 4)
magenta=$(tput AF 5)
cyan=$(tput AF 6)
grey=$(tput AF 7)
yellow=$(tput AF 3; tput md)
fi
fi
if [[ "$COLOR" -ge 1 ]]; then
if $ncurses_tput; then
bold=$(tput bold)
underline=$(tput sgr 0 1 2>/dev/null)
italic=$(tput sitm) # This doesn't work on FreeBSDi (9,10) and OpenBSD ...
italic_end=$(tput ritm) # ... and this, too
off=$(tput sgr0)
else # this is a try for old BSD, see terminfo(5)
bold=$(tput md)
underline=$(tput us)
italic=$(tput ZH 2>/dev/null) # This doesn't work on FreeBSDi (9,10) and OpenBSD
italic_end=$(tput ZR 2>/dev/null) # ... probably entry missing in /etc/termcap
reverse=$(tput mr)
off=$(tput me)
fi
fi
# FreeBSD 10 understands ESC codes like 'echo -e "\e[3mfoobar\e[23m"', but also no tput for italics
}
###### START universal helper function definitions ######
if [[ "${BASH_VERSINFO[0]}" == 3 ]]; then
# older bash can do this only (MacOS X), even SLES 11, see #697
toupper() { tr 'a-z' 'A-Z' <<< "$1"; }
tolower() { tr 'A-Z' 'a-z' <<< "$1"; }
else
toupper() { echo -n "${1^^}"; }
tolower() { echo -n "${1,,}"; }
fi
get_last_char() {
echo "${1:~0}" # "${string: -1}" would work too (both also in bash 3.2)
}
# Checking for last char. If already a separator supplied, we don't need an additional one
debugme() {
[[ "$DEBUG" -ge 2 ]] && "$@" >&2
return 0
}
debugme1() { [[ "$DEBUG" -ge 1 ]] && "$@" >&2; }
hex2dec() {
echo $((16#$1))
}
# convert decimal number < 256 to hex
dec02hex() {
printf "x%02x" "$1"
}
# convert decimal number between 256 and < 256*256 to hex
dec04hex() {
local a=$(printf "%04x" "$1")
printf "x%02s, x%02s" "${a:0:2}" "${a:2:2}"
}
# trim spaces for BSD and old sed
count_lines() {
echo $(wc -l <<< "$1")
}
count_words() {
echo $(wc -w <<< "$1")
}
count_ciphers() {
echo $(wc -w <<< "${1//:/ }")
}
count_chars() {
echo $(wc -c <<< "$1")
}
newline_to_spaces() {
tr '\n' ' ' <<< "$1" | sed 's/ $//'
}
colon_to_spaces() {
echo "${1//:/ }"
}
strip_lf() {
tr -d '\n' <<< "$1" | tr -d '\r'
}
strip_spaces() {
echo "${1// /}"
}
# https://web.archive.org/web/20121022051228/http://codesnippets.joyent.com/posts/show/1816
strip_leading_space() {
printf "%s" "${1#"${1%%[![:space:]]*}"}"
}
strip_trailing_space() {
printf "%s" "${1%"${1##*[![:space:]]}"}"
}
is_number() {
[[ "$1" =~ ^[1-9][0-9]*$ ]] && \
return 0 || \
return 1
}
strip_quote() {
# remove color codes (see https://www.commandlinefu.com/commands/view/3584/remove-color-codes-special-characters-with-sed)
# \', leading and all trailing spaces
sed -e "s,$(echo -e "\033")\[[0-9;]*[a-zA-Z],,g" \
-e "s/\"/\\'/g" \
-e 's/^ *//g' \
-e 's/ *$//g' <<< "$1"
}
# " deconfuse vim\'s syntax highlighting ;-)
is_ipv4addr() {
local octet="(25[0-5]|2[0-4][0-9]|1[0-9][0-9]|[1-9]?[0-9])"
local ipv4address="$octet\\.$octet\\.$octet\\.$octet"
[[ -z "$1" ]] && return 1
# Check that $1 contains an IPv4 address and nothing else
[[ "$1" =~ $ipv4address ]] && [[ "$1" == $BASH_REMATCH ]] && \
return 0 || \
return 1
}
# See RFC 4291, Section 2.2
is_ipv6addr() {
local ipv6seg="[0-9A-Fa-f]{1,4}"
local octet="(25[0-5]|2[0-4][0-9]|1[0-9][0-9]|[1-9]?[0-9])"
local ipv4address="$octet\\.$octet\\.$octet\\.$octet"
local ipv6address
ipv6address="($ipv6seg:){7}(:|$ipv6seg)"
ipv6address+="|($ipv6seg:){6}(:|:$ipv6seg|$ipv4address)"
ipv6address+="|($ipv6seg:){5}(:|(:$ipv6seg){1,2}|:$ipv4address)"
ipv6address+="|($ipv6seg:){4}(:|(:$ipv6seg){1,3}|:($ipv6seg:){0,1}$ipv4address)"
ipv6address+="|($ipv6seg:){3}(:|(:$ipv6seg){1,4}|:($ipv6seg:){0,2}$ipv4address)"
ipv6address+="|($ipv6seg:){2}(:|(:$ipv6seg){1,5}|:($ipv6seg:){0,3}$ipv4address)"
ipv6address+="|($ipv6seg:){1}(:|(:$ipv6seg){1,6}|:($ipv6seg:){0,4}$ipv4address)"
ipv6address+="|:((:$ipv6seg){1,7}|:($ipv6seg:){0,5}$ipv4address)"
[[ -z "$1" ]] && return 1
# Check that $1 contains an IPv4 address and nothing else
[[ "$1" =~ $ipv6address ]] && [[ "$1" == $BASH_REMATCH ]] && \
return 0 || \
return 1
}
join_by() {
# joins an array using a custom delimiter https://web.archive.org/web/20201222183540/https://stackoverflow.com/questions/1527049/how-can-i-join-elements-of-an-array-in-bash/17841619#17841619
local d=$1
shift
local f=$1
shift
printf %s "$f" "${@/#/$d}";
}
###### END universal helper function definitions ######
###### START ServerHello/OpenSSL/F5 function definitions ######
#arg1: TLS 1.2 and below ciphers
#arg2: TLS 1.3 ciphers
#arg3: options (e.g., -V)
actually_supported_osslciphers() {
local ciphers="$1"
local tls13_ciphers="$TLS13_OSSL_CIPHERS"
[[ "$2" != ALL ]] && tls13_ciphers="$2"
"$HAS_SECLEVEL" && [[ -n "$ciphers" ]] && ciphers="@SECLEVEL=0:$1"
if "$HAS_CIPHERSUITES"; then
$OPENSSL ciphers $3 $OSSL_CIPHERS_S -ciphersuites "$tls13_ciphers" "$ciphers" 2>/dev/null || echo ""
elif [[ -n "$tls13_ciphers" ]]; then
$OPENSSL ciphers $3 $OSSL_CIPHERS_S "$tls13_ciphers:$ciphers" 2>/dev/null || echo ""
else
$OPENSSL ciphers $OSSL_CIPHERS_S $3 "$ciphers" 2>/dev/null || echo ""
fi
}
# Given a protocol (arg1) and a list of ciphers (arg2) that is formatted as
# ", xx,xx, xx,xx, xx,xx, xx,xx" remove any TLSv1.3 ciphers if the protocol
# is less than 04 and remove any TLSv1.2-only ciphers if the protocol is less
# than 03.
strip_inconsistent_ciphers() {
local -i proto=0x$1
local cipherlist="$2"
[[ $proto -lt 4 ]] && cipherlist="${cipherlist//, 13,0[0-9a-fA-F]/}"
if [[ $proto -lt 3 ]]; then
cipherlist="${cipherlist//, 00,3[b-fB-F]/}"
cipherlist="${cipherlist//, 00,40/}"
cipherlist="${cipherlist//, 00,6[7-9a-dA-D]/}"
cipherlist="${cipherlist//, 00,9[c-fC-F]/}"
cipherlist="${cipherlist//, 00,[abAB][0-9a-fA-F]/}"
cipherlist="${cipherlist//, 00,[cC][0-5]/}"
cipherlist="${cipherlist//, 16,[bB][7-9aA]/}"
cipherlist="${cipherlist//, [cC]0,2[3-9a-fA-F]/}"
cipherlist="${cipherlist//, [cC]0,3[01278a-fA-F]/}"
cipherlist="${cipherlist//, [cC]0,[4-9aA][0-9a-fA-F]/}"
cipherlist="${cipherlist//, [cC][cC],1[345]/}"
cipherlist="${cipherlist//, [cC][cC],[aA][89a-eA-E]/}"
fi
echo "$cipherlist"
return 0
}
# retrieve cipher from ServerHello (via openssl)
get_cipher() {
local cipher=""
local server_hello="$(cat -v "$1")"
# This and two other following instances are not best practice and normally a useless use of "cat", see
# https://web.archive.org/web/20160711205930/http://porkmail.org/era/unix/award.html#uucaletter
# However there seem to be cases where the preferred $(< "$1") logic has a problem.
# Esepcially with bash 3.2 (Mac OS X) and when on the server side binary chars
# are returned, see https://stackoverflow.com/questions/7427262/how-to-read-a-file-into-a-variable-in-shell#22607352
# and https://github.com/drwetter/testssl.sh/issues/1292
# Performance measurements showed no to barely measureable penalty (1s displayed in 9 tries).
if [[ "$server_hello" =~ Cipher\ *:\ ([A-Z0-9]+-[A-Za-z0-9\-]+|TLS_[A-Za-z0-9_]+|SSL_[A-Za-z0-9_]+) ]]; then
cipher="${BASH_REMATCH##* }"
elif [[ "$server_hello" =~ (New|Reused)", "(SSLv[23]|TLSv1(\.[0-3])?(\/SSLv3)?)", Cipher is "([A-Z0-9]+-[A-Za-z0-9\-]+|TLS_[A-Za-z0-9_]+) ]]; then
cipher="${BASH_REMATCH##* }"
fi
tm_out "$cipher"
}
# retrieve protocol from ServerHello (via openssl)
get_protocol() {
local protocol=""
local server_hello="$(cat -v "$1")"
if [[ "$server_hello" =~ Protocol\ *:\ (SSLv[23]|TLSv1(\.[0-3])?) ]]; then
protocol="${BASH_REMATCH##* }"
elif [[ "$server_hello" =~ (New|Reused)", TLSv1.3, Cipher is "TLS_[A-Z0-9_]+ ]]; then
# Note: When OpenSSL prints "New, <protocol>, Cipher is <cipher>", <cipher> is the
# negotiated cipher, but <protocol> is not the negotiated protocol. Instead, it is
# the SSL/TLS protocol that first defined <cipher>. Since the ciphers that were
# first defined for TLSv1.3 may only be used with TLSv1.3, this line may be used
# to determine whether TLSv1.3 was negotiated, but if another protocol is specified
# on this line, then this line does not indicate the actual protocol negotiated. Also,
# only TLSv1.3 cipher suites have names that begin with TLS_, which provides additional
# assurance that the above match will only succeed if TLSv1.3 was negotiated.
protocol="TLSv1.3"
fi
tm_out "$protocol"
}
# now some function for the integrated BIGIP F5 Cookie detector (see https://github.com/drwetter/F5-BIGIP-Decoder)
f5_hex2ip() {
debugme echo "$1"
echo $((16#${1:0:2})).$((16#${1:2:2})).$((16#${1:4:2})).$((16#${1:6:2}))
}
f5_hex2ip6() {
debugme echo "$1"
echo "[${1:0:4}:${1:4:4}:${1:8:4}:${1:12:4}.${1:16:4}:${1:20:4}:${1:24:4}:${1:28:4}]"
}
f5_determine_routeddomain() {
local tmp
tmp="${1%%o*}"
echo "${tmp/rd/}"
}
f5_ip_oldstyle() {
local tmp
local a b c d
tmp="${1/%.*}" # until first dot
tmp="$(printf "%08x" "$tmp")" # convert the whole thing to hex, now back to ip (reversed notation:
tmp="$(f5_hex2ip $tmp)" # transform to ip with reversed notation
IFS="." read -r a b c d <<< "$tmp" # reverse it
echo $d.$c.$b.$a
}
f5_port_decode() {
local tmp
tmp="$(strip_lf "$1")" # remove lf if there is one
tmp="${tmp/.0000/}" # to be sure remove trailing zeros with a dot
tmp="${tmp#*.}" # get the port
tmp="$(printf "%04x" "${tmp}")" # to hex
if [[ ${#tmp} -eq 4 ]]; then
:
elif [[ ${#tmp} -eq 3 ]]; then # fill it up with leading zeros if needed
tmp=0${tmp}
elif [[ ${#tmp} -eq 2 ]]; then
tmp=00${tmp}
fi
echo $((16#${tmp:2:2}${tmp:0:2})) # reverse order and convert it from hex to dec
}
###### END universal helper function definitions ######
###### START scoring function definitions ######
# Sets the grade cap to ARG1
# arg1: A grade to set ("A", "B", "C", "D", "E", "F", "M", or "T")
# arg2: A reason why (e.g. "Vulnerable to CRIME")
set_grade_cap() {
"$do_rating" || return 0
GRADE_CAP_REASONS+=("Grade capped to $1. $2")
# Always set special attributes. These are hard caps, due to name mismatch or cert being invalid
if [[ "$1" == T || "$1" == M ]]; then
GRADE_CAP="$1"
# Only keep track of the lowest grade cap, since a higher grade cap wont do anything (F = lowest, A = highest)
elif [[ ! "$GRADE_CAP" > "$1" ]]; then
GRADE_CAP="$1"
fi
return 0
}
# Sets a grade warning, as specified by the grade specification
# arg1: A warning message
set_grade_warning() {
"$do_rating" || return 0
GRADE_WARNINGS+=("$1")
return 0
}
# Sets the score for Category 2 (Key Exchange Strength)
# arg1: Short key algorithm ("EC", "DH", "RSA", ...), or "DHE" for ephemeral key size
# arg2: key size (number of bits)
set_key_str_score() {
local type=$1
local size=$2
"$do_rating" || return 0
if [[ $type == EC || $type == EdDSA ]]; then
if [[ $size -lt 110 ]] && [[ $KEY_EXCH_SCORE -ge 20 ]]; then
let KEY_EXCH_SCORE=20
elif [[ $size -lt 123 ]] && [[ $KEY_EXCH_SCORE -ge 40 ]]; then
let KEY_EXCH_SCORE=40
elif [[ $size -lt 163 ]] && [[ $KEY_EXCH_SCORE -ge 80 ]]; then
let KEY_EXCH_SCORE=80
elif [[ $size -lt 225 ]] && [[ $KEY_EXCH_SCORE -ge 90 ]]; then
let KEY_EXCH_SCORE=90
fi
else
if [[ $size -lt 512 ]] && [[ $KEY_EXCH_SCORE -ge 20 ]]; then
let KEY_EXCH_SCORE=20
elif [[ $size -lt 1024 ]] && [[ $KEY_EXCH_SCORE -ge 40 ]]; then
let KEY_EXCH_SCORE=40
elif [[ $size -lt 2048 ]] && [[ $KEY_EXCH_SCORE -ge 80 ]]; then
let KEY_EXCH_SCORE=80
elif [[ $size -lt 4096 ]] && [[ $KEY_EXCH_SCORE -ge 90 ]]; then
let KEY_EXCH_SCORE=90
fi
fi
return 0
}
# Sets the best and worst bit size key, used to grade Category 3 (Cipher Strength)
# This function itself doesn't actually set a score; its just in the name to keep it logical (score == rating function)
# arg1: a bit size
set_ciph_str_score() {
local size=$1
"$do_rating" || return 0
[[ $size -gt $CIPH_STR_BEST ]] && let CIPH_STR_BEST=$size
[[ $size -lt $CIPH_STR_WORST ]] && let CIPH_STR_WORST=$size
return 0
}
###### END scoring function definitions ######
##################### START output file formatting functions #########################
#################### START JSON file functions ####################
fileout_json_footer() {
if "$do_json"; then
if [[ "$SCAN_TIME" -eq 0 ]]; then
fileout_json_finding "scanTime" "WARN" "Scan interrupted" "" "" ""
elif [[ $SEVERITY_LEVEL -lt $LOW ]] ; then
# no scan time in --severity=low and above, also needed for Travis, hackish...
fileout_json_finding "scanTime" "INFO" $SCAN_TIME "" "" ""
fi
printf "]\n" >> "$JSONFILE"
fi
if "$do_pretty_json"; then
if [[ "$SCAN_TIME" -eq 0 ]]; then
echo -e " ],\n \"scanTime\" : \"Scan interrupted\"\n}" >> "$JSONFILE"
else
echo -e " ],\n \"scanTime\" : ${SCAN_TIME}\n}" >> "$JSONFILE"
fi
fi
}
fileout_json_section() {
case $1 in
0) echo -e " \"pretest\" : [" ;;
1) echo -e " \"singleCipher\" : [" ;;
2) echo -e ",\n \"protocols\" : [" ;;
3) echo -e ",\n \"grease\" : [" ;;
4) echo -e ",\n \"ciphers\" : [" ;;
5) echo -e ",\n \"fs\" : [" ;;
6) echo -e ",\n \"serverPreferences\" : [" ;;
7) echo -e ",\n \"serverDefaults\" : [" ;;
8) echo -e ",\n \"headerResponse\" : [" ;;
9) echo -e ",\n \"vulnerabilities\" : [" ;;
10) echo -e ",\n \"cipherTests\" : [" ;;
11) echo -e ",\n \"browserSimulations\": [" ;;
12) echo -e ",\n \"rating\" : [" ;;
*) echo "invalid section" ;;
esac
}
fileout_section_header() {
local str=""
"$2" && str="$(fileout_section_footer false)"
"$do_pretty_json" && FIRST_FINDING=true && (printf "%s%s\n" "$str" "$(fileout_json_section "$1")") >> "$JSONFILE"
SECTION_FOOTER_NEEDED=true
}
# arg1: whether to end object too
fileout_section_footer() {
"$do_pretty_json" && printf "\n ]" >> "$JSONFILE"
"$do_pretty_json" && "$1" && echo -e "\n }" >> "$JSONFILE"
SECTION_FOOTER_NEEDED=false
}
fileout_json_print_parameter() {
local parameter="$1"
local filler="$2"
local value="$3"
local not_last="$4"
local spaces=""
"$do_json" && \
spaces=" " || \
spaces=" "
if [[ -n "$value" ]] || [[ "$parameter" == finding ]]; then
printf "%s%s%s%s" "$spaces" "\"$parameter\"" "$filler" ": \"$value\"" >> "$JSONFILE"
"$not_last" && printf ",\n" >> "$JSONFILE"
fi
}
fileout_json_finding() {
local target
local finding="$3"
local cve="$4"
local cwe="$5"
local hint="$6"
if "$do_json"; then
"$FIRST_FINDING" || echo -n "," >> "$JSONFILE"
echo -e " {" >> "$JSONFILE"
fileout_json_print_parameter "id" " " "$1" true
fileout_json_print_parameter "ip" " " "$NODE/$NODEIP" true
fileout_json_print_parameter "port" " " "$PORT" true
fileout_json_print_parameter "severity" " " "$2" true
fileout_json_print_parameter "cve" " " "$cve" true
fileout_json_print_parameter "cwe" " " "$cwe" true
"$GIVE_HINTS" && fileout_json_print_parameter "hint" " " "$hint" true
fileout_json_print_parameter "finding" " " "$finding" false
echo -e "\n }" >> "$JSONFILE"
fi
if "$do_pretty_json"; then
if [[ "$1" == service ]]; then
if [[ $SERVER_COUNTER -gt 1 ]]; then
echo " ," >> "$JSONFILE"
fi
target="$NODE"
$do_mx_all_ips && target="$URI"
echo -e " {
\"targetHost\" : \"$target\",
\"ip\" : \"$NODEIP\",
\"port\" : \"$PORT\",
\"rDNS\" : \"$rDNS\",
\"service\" : \"$finding\"," >> "$JSONFILE"
$do_mx_all_ips && echo -e " \"hostname\" : \"$NODE\"," >> "$JSONFILE"
else
("$FIRST_FINDING" && echo -n " {" >> "$JSONFILE") || echo -n ",{" >> "$JSONFILE"
echo -e -n "\n" >> "$JSONFILE"
fileout_json_print_parameter "id" " " "$1" true
fileout_json_print_parameter "severity" " " "$2" true
fileout_json_print_parameter "cve" " " "$cve" true
fileout_json_print_parameter "cwe" " " "$cwe" true
"$GIVE_HINTS" && fileout_json_print_parameter "hint" " " "$hint" true
fileout_json_print_parameter "finding" " " "$finding" false
echo -e -n "\n }" >> "$JSONFILE"
fi
fi
}
fileout_pretty_json_banner() {
local target
if ! "$do_mass_testing"; then
[[ -z "$NODE" ]] && parse_hn_port "${URI}"
# NODE, URL_PATH, PORT, IPADDR and IP46ADDR is set now --> wrong place
target="$NODE"
$do_mx_all_ips && target="$URI"
fi
echo -e " \"Invocation\" : \"$PROG_NAME $CMDLINE\",
\"at\" : \"$HNAME:$OPENSSL_LOCATION\",
\"version\" : \"$VERSION $GIT_REL_SHORT\",
\"openssl\" : \"$OSSL_NAME $OSSL_VER from $OSSL_BUILD_DATE\",
\"startTime\" : \"$START_TIME\",
\"scanResult\" : ["
}
fileout_banner() {
if "$JSONHEADER"; then
# "$do_json" && # here we maybe should add a banner, too
"$do_pretty_json" && FIRST_FINDING=true && (printf "%s\n" "$(fileout_pretty_json_banner)") >> "$JSONFILE"
fi
}
fileout_separator() {
if "$JSONHEADER"; then
"$do_pretty_json" && echo " ," >> "$JSONFILE"
"$do_json" && echo -n "," >> "$JSONFILE"
fi
}
fileout_footer() {
if "$JSONHEADER"; then
fileout_json_footer
fi
# CSV: no footer
return 0
}
fileout_insert_warning() {
# See #815. Make sure we don't mess up the JSON PRETTY format if we complain with a client side warning.
# This should only be called if an *extra* warning will be printed (previously: 'fileout <extra_warning_ID> "WARN" '
# arg1: json identifier, arg2: normally "WARN", arg3: finding
#
# Also, we have to be careful with any form of mass testing so that a warning won't lead to an invalid JSON
# file. As any child will do any check as well (to be reconsidered later), we don't need also the parent to issue
# warnings upfront, see #1169. As a detection we'll use --file/-iL as in the children jobs it'll be removed:
[[ "$CMDLINE=" =~ --file ]] && return 0
[[ "$CMDLINE=" =~ -iL ]] && return 0
# Note we still have the message on screen + in HTML which is not as optimal as it could be
if "$do_pretty_json"; then
echo -e " \"clientProblem${CLIENT_PROB_NO}\" : [" >>"$JSONFILE"
CLIENT_PROB_NO=$((CLIENT_PROB_NO + 1))
FIRST_FINDING=true # make sure we don't have a comma here
fi
fileout "$1" "$2" "$3"
if "$do_pretty_json"; then
echo -e "\n ]," >>"$JSONFILE"
fi
}
fileout_csv_finding() {
safe_echo "\"$1\"," >> "$CSVFILE"
safe_echo "\"$2\"," >> "$CSVFILE"
safe_echo "\"$3\"," >> "$CSVFILE"
safe_echo "\"$4\"," >> "$CSVFILE"
safe_echo "\"$5\"," >> "$CSVFILE"
safe_echo "\"$6\"," >> "$CSVFILE"
if "$GIVE_HINTS"; then
safe_echo "\"$7\"," >> "$CSVFILE"
safe_echo "\"$8\"\n" >> "$CSVFILE"
else
safe_echo "\"$7\"\n" >> "$CSVFILE"
fi
}
# ID, SEVERITY, FINDING, CVE, CWE, HINT
fileout() {
local severity="$2"
local cve="$4"
local cwe="$5"
local hint="$6"
if ( "$do_pretty_json" && [[ "$1" == service ]] ) || show_finding "$severity"; then
local finding=$(strip_lf "$(newline_to_spaces "$(strip_quote "$3")")") # additional quotes will mess up screen output
[[ -e "$JSONFILE" ]] && [[ ! -d "$JSONFILE" ]] && fileout_json_finding "$1" "$severity" "$finding" "$cve" "$cwe" "$hint"
"$do_csv" && [[ -n "$CSVFILE" ]] && [[ ! -d "$CSVFILE" ]] && \
fileout_csv_finding "$1" "$NODE/$NODEIP" "$PORT" "$severity" "$finding" "$cve" "$cwe" "$hint"
"$FIRST_FINDING" && FIRST_FINDING=false
fi
}
json_header() {
local fname_prefix
local filename_provided=false
if [[ -n "$PARENT_JSONFILE" ]]; then
[[ -n "$JSONFILE" ]] && fatal "Can't write to both $PARENT_JSONFILE and $JSONFILE" $ERR_CMDLINE
JSONFILE="$PARENT_JSONFILE"
fi
[[ -n "$JSONFILE" ]] && [[ ! -d "$JSONFILE" ]] && filename_provided=true
# Similar to HTML: Don't create headers and footers in the following scenarios:
# * no JSON/CSV output is being created.
# * mass testing is being performed and each test will have its own file.
# * this is an individual test within a mass test and all output is being placed in a single file.
! "$do_json" && ! "$do_pretty_json" && JSONHEADER=false && return 0
"$do_mass_testing" && ! "$filename_provided" && JSONHEADER=false && return 0
"$CHILD_MASS_TESTING" && "$filename_provided" && [[ -n "$PARENT_JSONFILE" ]] && JSONHEADER=false && return 0
if "$do_display_only"; then
fname_prefix="local-ciphers"
elif "$do_mass_testing"; then
:
elif "$do_mx_all_ips"; then
fname_prefix="${FNAME_PREFIX}mx-${URI}"
else
# ensure NODE, URL_PATH, PORT, IPADDR and IP46ADDR are set
! "$filename_provided" && [[ -z "$NODE" ]] && parse_hn_port "${URI}"
fname_prefix="${FNAME_PREFIX}${NODE}_p${PORT}"
fi
if [[ -z "$JSONFILE" ]]; then
JSONFILE="$fname_prefix-$(date +"%Y%m%d-%H%M".json)"
elif [[ -d "$JSONFILE" ]]; then
JSONFILE="$JSONFILE/${fname_prefix}-$(date +"%Y%m%d-%H%M".json)"
fi
# Silently reset APPEND var if the file doesn't exist as otherwise it won't be created
if "$APPEND" && [[ ! -s "$JSONFILE" ]]; then
APPEND=false
fi
if "$APPEND"; then
JSONHEADER=false
else
if [[ -s "$JSONFILE" ]]; then
"$OVERWRITE" || fatal "non-empty \"$JSONFILE\" exists. Either use \"--append\" or (re)move it" $ERR_FCREATE
cp /dev/null "$JSONFILE"
fi
"$do_json" && echo "[" > "$JSONFILE"
"$do_pretty_json" && echo "{" > "$JSONFILE"
fi
return 0
}
csv_header() {
local fname_prefix
local filename_provided=false
if [[ -n "$PARENT_CSVFILE" ]]; then
[[ -n "$CSVFILE" ]] && fatal "Can't write to both $PARENT_CSVFILE and $CSVFILE" $ERR_CMDLINE
CSVFILE="$PARENT_CSVFILE"
fi
[[ -n "$CSVFILE" ]] && [[ ! -d "$CSVFILE" ]] && filename_provided=true
# CSV similar to JSON
! "$do_csv" && CSVHEADER=false && return 0
"$do_mass_testing" && ! "$filename_provided" && CSVHEADER=false && return 0
"$CHILD_MASS_TESTING" && "$filename_provided" && [[ -n "$PARENT_CSVFILE" ]] && CSVHEADER=false && return 0
if "$do_display_only"; then
fname_prefix="local-ciphers"
elif "$do_mass_testing"; then
:
elif "$do_mx_all_ips"; then
fname_prefix="${FNAME_PREFIX}mx-${URI}"
else
# ensure NODE, URL_PATH, PORT, IPADDR and IP46ADDR are set
! "$filename_provided" && [[ -z "$NODE" ]] && parse_hn_port "${URI}"
fname_prefix="${FNAME_PREFIX}${NODE}_p${PORT}"
fi
if [[ -z "$CSVFILE" ]]; then
CSVFILE="${fname_prefix}-$(date +"%Y%m%d-%H%M".csv)"
elif [[ -d "$CSVFILE" ]]; then
CSVFILE="$CSVFILE/${fname_prefix}-$(date +"%Y%m%d-%H%M".csv)"
fi
# Silently reset APPEND var if the file doesn't exist as otherwise it won't be created
if "$APPEND" && [[ ! -s "$CSVFILE" ]]; then
APPEND=false
fi
if "$APPEND"; then
CSVHEADER=false
else
if [[ -s "$CSVFILE" ]]; then
"$OVERWRITE" || fatal "non-empty \"$CSVFILE\" exists. Either use \"--append\" or (re)move it" $ERR_FCREATE
cp /dev/null "$CSVFILE"
fi
touch "$CSVFILE"
if "$GIVE_HINTS"; then
fileout_csv_finding "id" "fqdn/ip" "port" "severity" "finding" "cve" "cwe" "hint"
else
fileout_csv_finding "id" "fqdn/ip" "port" "severity" "finding" "cve" "cwe"
fi
fi
return 0
}
################# END JSON file functions. START HTML functions ####################
html_header() {
local fname_prefix
local filename_provided=false
if [[ -n "$PARENT_HTMLFILE" ]]; then
[[ -n "$HTMLFILE" ]] && fatal "Can't write to both $PARENT_HTMLFILE and $HTMLFILE" $ERR_CMDLINE
HTMLFILE="$PARENT_HTMLFILE"
fi
[[ -n "$HTMLFILE" ]] && [[ ! -d "$HTMLFILE" ]] && filename_provided=true
# Don't create HTML headers and footers in the following scenarios:
# * HTML output is not being created.
# * mass testing is being performed and each test will have its own HTML file.
# * this is an individual test within a mass test and all HTML output is being placed in a single file.
! "$do_html" && HTMLHEADER=false && return 0
"$do_mass_testing" && ! "$filename_provided" && HTMLHEADER=false && return 0
"$CHILD_MASS_TESTING" && "$filename_provided" && [[ -n "$PARENT_HTMLFILE" ]] && HTMLHEADER=false && return 0
if "$do_display_only"; then
fname_prefix="local-ciphers"
elif "$do_mass_testing"; then
:
elif "$do_mx_all_ips"; then
fname_prefix="${FNAME_PREFIX}mx-${URI}"
else
# ensure NODE, URL_PATH, PORT, IPADDR and IP46ADDR are set
! "$filename_provided" && [[ -z "$NODE" ]] && parse_hn_port "${URI}"
fname_prefix="${FNAME_PREFIX}${NODE}_p${PORT}"
fi
if [[ -z "$HTMLFILE" ]]; then
HTMLFILE="$fname_prefix-$(date +"%Y%m%d-%H%M".html)"
elif [[ -d "$HTMLFILE" ]]; then
HTMLFILE="$HTMLFILE/$fname_prefix-$(date +"%Y%m%d-%H%M".html)"
fi
# Silently reset APPEND var if the file doesn't exist as otherwise it won't be created
if "$APPEND" && [[ ! -s "$HTMLFILE" ]]; then
APPEND=false
fi
if "$APPEND"; then
HTMLHEADER=false
else
if [[ -s "$HTMLFILE" ]]; then
"$OVERWRITE" || fatal "non-empty \"$HTMLFILE\" exists. Either use \"--append\" or (re)move it" $ERR_FCREATE
cp /dev/null "$HTMLFILE"
fi
html_out "<?xml version=\"1.0\" encoding=\"UTF-8\" ?>\n"
html_out "<!DOCTYPE html PUBLIC \"-//W3C//DTD XHTML 1.0 Strict//EN\" \"http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd\">\n"
html_out "<!-- This file was created with testssl.sh. https://testssl.sh -->\n"
html_out "<html xmlns=\"http://www.w3.org/1999/xhtml\">\n"
html_out "<head>\n"
html_out "<meta http-equiv=\"Content-Type\" content=\"application/xml+xhtml; charset=UTF-8\" />\n"
html_out "<title>testssl.sh</title>\n"
html_out "</head>\n"
html_out "<body>\n"
html_out "<pre>\n"
fi
return 0
}
html_banner() {
if "$CHILD_MASS_TESTING" && "$HTMLHEADER"; then
html_out "## Scan started as: \"$PROG_NAME $CMDLINE\"\n"
html_out "## at $HNAME:$OPENSSL_LOCATION\n"
html_out "## version testssl: $VERSION ${GIT_REL_SHORT:-$CVS_REL_SHORT} from $REL_DATE\n"
html_out "## version openssl: \"$OSSL_NAME $OSSL_VER\" from \"$OSSL_BUILD_DATE\")\n\n"
fi
}
html_footer() {
if "$HTMLHEADER"; then
html_out "</pre>\n"
html_out "</body>\n"
html_out "</html>\n"
fi
return 0
}
################# END HTML file functions ####################
prepare_logging() {
# arg1: for testing mx records name we put a name of logfile in here, otherwise we get strange file names
local fname_prefix="$1"
local filename_provided=false
if [[ -n "$PARENT_LOGFILE" ]]; then
[[ -n "$LOGFILE" ]] && fatal "Can't write to both $PARENT_LOGFILE and $LOGFILE" $ERR_CMDLINE
LOGFILE="$PARENT_LOGFILE"
fi
[[ -n "$LOGFILE" ]] && [[ ! -d "$LOGFILE" ]] && filename_provided=true
# Similar to html_header():
! "$do_logging" && return 0
"$do_mass_testing" && ! "$filename_provided" && return 0
"$CHILD_MASS_TESTING" && "$filename_provided" && [[ -n "$PARENT_LOGFILE" ]] && return 0
[[ -z "$fname_prefix" ]] && fname_prefix="${FNAME_PREFIX}${NODE}_p${PORT}"
if [[ -z "$LOGFILE" ]]; then
LOGFILE="$fname_prefix-$(date +"%Y%m%d-%H%M".log)"
elif [[ -d "$LOGFILE" ]]; then
# actually we were instructed to place all files in a DIR instead of the current working dir
LOGFILE="$LOGFILE/$fname_prefix-$(date +"%Y%m%d-%H%M".log)"
else
: # just for clarity: a log file was specified, no need to do anything else
fi
if ! "$APPEND"; then
if [[ -s "$LOGFILE" ]]; then
"$OVERWRITE" || fatal "non-empty \"$LOGFILE\" exists. Either use \"--append\" or (re)move it" $ERR_FCREATE
cp /dev/null "$LOGFILE"
fi
fi
tmln_out "## Scan started as: \"$PROG_NAME $CMDLINE\"" >>"$LOGFILE"
tmln_out "## at $HNAME:$OPENSSL_LOCATION" >>"$LOGFILE"
tmln_out "## version testssl: $VERSION ${GIT_REL_SHORT:-$CVS_REL_SHORT} from $REL_DATE" >>"$LOGFILE"
tmln_out "## version openssl: \"$OSSL_VER\" from \"$OSSL_BUILD_DATE\")\n" >>"$LOGFILE"
exec > >(tee -a -i "$LOGFILE")
}
################### END all file output functions #########################
# prints a string of n spaces (n < 80)
print_n_spaces() {
local -i n="$1"
local spaces=" "
out "${spaces:0:n}"
}
# prints out multiple lines in $1, left aligned by spaces in $2
out_row_aligned() {
local first=true
while read line; do
"$first" && \
first=false || \
out "$2"
outln "$line"
done <<< "$1"
}
# prints text over multiple lines, trying to make no line longer than $max_width.
# Each line is indented with $spaces.
out_row_aligned_max_width() {
local text="$1"
local spaces="$2"
local -i max_width="$3"
local -i i len
local cr=$'\n'
local line
local first=true
max_width=$max_width-${#spaces}
len=${#text}
while true; do
if [[ $len -lt $max_width ]]; then
# If the remaining text to print is shorter than $max_width,
# then just print it.
i=$len
else
# Find the final space character in the text that is less than
# $max_width characters into the remaining text, and make the
# text up to that space character the next line to print.
line="${text:0:max_width}"
line="${line% *}"
i="${#line}"
if [[ $i -eq $max_width ]]; then
# If there are no space characters in the first $max_width
# characters of the remaining text, then make the text up
# to the first space the next line to print. If there are
# no space characters in the remaining text, make the
# remaining text the next line to print.
line="${text#* }"
i=$len-${#line}
[[ $i -eq 0 ]] && i=$len
fi
fi
if ! "$first"; then
tm_out "${cr}${spaces}"
fi
tm_out "${text:0:i}"
[[ $i -eq $len ]] && break
len=$len-$i-1
i+=1
text="${text:i:len}"
first=false
[[ $len -eq 0 ]] && break
done
return 0
}
out_row_aligned_max_width_by_entry() {
local text="$1"
local spaces="$2"
local -i max_width="$3"
local print_function="$4"
local resp entry prev_entry=" "
resp="$(out_row_aligned_max_width "$text" "$spaces" "$max_width")"
while read -d " " entry; do
if [[ -n "$entry" ]]; then
$print_function "$entry"
elif [[ -n "$prev_entry" ]]; then
outln; out " "
fi
out " "
prev_entry="$entry"
done <<< "$resp"
}
print_fixed_width() {
local text="$1"
local -i len width="$2"
local print_function="$3"
len=${#text}
$print_function "$text"
print_n_spaces "$((width-len+1))"
}
# saves $TMPFILE or file supplied in $2 under name "$TEMPDIR/$NODEIP.$1".
# Note: after finishing $TEMPDIR will be removed unless DEBUG >=1
tmpfile_handle() {
local savefile="$2"
[[ -z "$savefile" ]] && savefile=$TMPFILE
#FIXME: make sure/find out if we do not need $TEMPDIR/$NODEIP.$1" if debug=0. We would save fs access here
mv $savefile "$TEMPDIR/$NODEIP.$1" 2>/dev/null
[[ $ERRFILE =~ dev.null ]] && return 0 || \
mv $ERRFILE "$TEMPDIR/$NODEIP.${1//.txt/}.errorlog" 2>/dev/null
return 0
}
# arg1: line with comment sign, tabs and so on
filter_input() {
sed -e 's/#.*$//' -e '/^$/d' <<< "$1" | tr -d '\n' | tr -d '\t' | tr -d '\r'
}
# Dl's any URL (arg1) via HTTP 1.1 GET from port 80, arg2: file to store http body.
# Proxy is not honored yet (see cmd line switches) -- except when using curl or wget.
# There the environment variable is used automatically
# Currently it is being used by check_revocation_crl() only.
http_get() {
local proto z
local node="" query=""
local dl="$2"
local useragent="$UA_STD"
local jsonID="http_get"
"$SNEAKY" && useragent="$UA_SNEAKY"
if type -p curl &>/dev/null; then
if [[ -z "$PROXY" ]]; then
curl -s --noproxy '*' -A $''"$useragent"'' -o $dl "$1"
else
# for the sake of simplicity assume the proxy is using http
curl -s -x $PROXYIP:$PROXYPORT -A $''"$useragent"'' -o $dl "$1"
fi
return $?
elif type -p wget &>/dev/null; then
# wget has no proxy command line. We need to use http_proxy instead. And for the sake of simplicity
# assume the GET protocol we query is using http -- http_proxy is the $ENV not for the connection TO
# the proxy, but for the protocol we query THROUGH the proxy
if [[ -z "$PROXY" ]]; then
wget --no-proxy -q -U $''"$useragent"'' -O $dl "$1"
else
if [[ -z "$http_proxy" ]]; then
http_proxy=http://$PROXYIP:$PROXYPORT wget -q -U $''"$useragent"'' -O $dl "$1"
else
wget -q -U $''"$useragent"'' -O $dl "$1"
fi
fi
return $?
else
# Worst option: slower and hiccups with chunked transfers. Workaround for the
# latter is using HTTP/1.0. We do not support https here, yet.
# First the URL will be split
IFS=/ read -r proto z node query <<< "$1"
proto=${proto%:}
if [[ "$proto" != http ]]; then
pr_warning "protocol $proto not supported yet"
fileout "$jsonID" "DEBUG" "protocol $proto not supported yet"
return 6
fi
if [[ -n $PROXY ]]; then
# PROXYNODE works better than PROXYIP on modern versions of squid. \
# We don't reuse the code in fd_socket() as there's initial CONNECT which makes problems
if ! exec 33<> /dev/tcp/${PROXYNODE}/${PROXYPORT}; then
outln
pr_warning "$PROG_NAME: unable to open a socket to proxy $PROXYNODE:$PROXYPORT"
fileout "$jsonID" "DEBUG" "$PROG_NAME: unable to open a socket to proxy $PROXYNODE:$PROXYPORT"
return 6
else
printf -- "%b" "GET $proto://$node/$query HTTP/1.0\r\nUser-Agent: $useragent\r\nHost: $node\r\nAccept: */*\r\n\r\n" >&33
fi
else
IFS=/ read -r proto z node query <<< "$1"
exec 33<>/dev/tcp/$node/80
printf -- "%b" "GET /$query HTTP/1.0\r\nUser-Agent: $useragent\r\nHost: $node\r\nAccept: */*\r\n\r\n" >&33
fi
# Strip HTTP header. When in Debug Mode we leave the raw data in place
if [[ $DEBUG -ge 1 ]]; then
cat <&33 >${dl}.raw
cat ${dl}.raw | sed '1,/^[[:space:]]*$/d' >${dl}
else
cat <&33 | sed '1,/^[[:space:]]*$/d' >${dl}
fi
exec 33<&-
exec 33>&-
[[ -s "$dl" ]] && return 0 || return 1
fi
}
# Outputs the headers when downloading any URL (arg1) via HTTP 1.1 GET from port 80.
# Only works if curl or wget is available.
# There the environment variable is used automatically
# Currently it is being used by check_pwnedkeys() only.
http_get_header() {
local proto
local node="" query=""
local dl="$2"
local useragent="$UA_STD"
local jsonID="http_get_header"
local headers
local -i ret
"$SNEAKY" && useragent="$UA_SNEAKY"
if type -p curl &>/dev/null; then
if [[ -z "$PROXY" ]]; then
headers="$(curl --head -s --noproxy '*' -A $''"$useragent"'' "$1")"
else
# for the sake of simplicity assume the proxy is using http
headers="$(curl --head -s -x $PROXYIP:$PROXYPORT -A $''"$useragent"'' "$1")"
fi
ret=$?
[[ $ret -eq 0 ]] && tm_out "$headers"
return $ret
elif type -p wget &>/dev/null; then
# wget has no proxy command line. We need to use http_proxy instead. And for the sake of simplicity
# assume the GET protocol we query is using http -- http_proxy is the $ENV not for the connection TO
# the proxy, but for the protocol we query THROUGH the proxy
if [[ -z "$PROXY" ]]; then
headers="$(wget --no-proxy -q -S -U $''"$useragent"'' -O /dev/null "$1" 2>&1)"
else
if [[ -z "$http_proxy" ]]; then
headers="$(http_proxy=http://$PROXYIP:$PROXYPORT wget -q -S -U $''"$useragent"'' -O /dev/null "$1" 2>&1)"
else
headers="$(wget -q -S -U $''"$useragent"'' -O /dev/null "$1" 2>&1)"
fi
fi
ret=$?
[[ $ret -eq 0 ]] && tm_out "$headers"
# wget(1): "8: Server issued an error response.". Happens e.g. when 404 is returned. However also if the call wasn't correct (400)
# So we assume for now that everything is submitted correctly. We parse the error code too later
[[ $ret -eq 8 ]] && ret=0 && tm_out "$headers"
return $ret
else
return 1
fi
}
ldap_get() {
local ldif
local -i success
local crl="$1"
local tmpfile="$2"
local jsonID="$3"
if type -p curl &>/dev/null; then
# proxy handling?
ldif="$(curl -s "$crl")"
[[ $? -eq 0 ]] || return 1
awk '/certificateRevocationList/ { print $2 }' <<< "$ldif" | $OPENSSL base64 -d -A -out "$tmpfile" 2>/dev/null
[[ -s "$tmpfile" ]] || return 1
return 0
else
pr_litecyan " (for LDAP CRL check install \"curl\")"
fileout "$jsonID" "INFO" "LDAP CRL revocation check needs \"curl\""
return 2
fi
}
# checks whether the public key in arg1 appears in the https://pwnedkeys.com/ database.
# arg1: file containing certificate
# arg2: public key algorithm
# arg3 key size
# Responses are as follows:
# 0 - not checked
# 1 - key not found in database
# 2 - key found in database
# 7 - network/proxy failure
check_pwnedkeys() {
local cert="$1"
local cert_key_algo="$2"
local -i cert_keysize="$3"
local pubkey curve response
"$PHONE_OUT" || return 0
# https://pwnedkeys.com only keeps records on 1024 bit and larger RSA keys,
# as well as elliptic-curve keys on the P-256, P-384, and P-521 curves.
if [[ "$cert_key_algo" =~ RSA ]] || [[ "$cert_key_algo" =~ rsa ]]; then
[[ $cert_keysize -ge 1024 ]] || return 0
elif [[ "$cert_key_algo" =~ ecdsa ]] || [[ "$cert_key_algo" == *ecPublicKey ]]; then
[[ $cert_keysize -eq 256 ]] || [[ $cert_keysize -eq 384 ]] || \
[[ $cert_keysize -eq 521 ]] || return 0
else
return 0
fi
pubkey="$($OPENSSL x509 -in "$cert" -pubkey -noout 2>/dev/null)"
# If it is an elliptic curve key, check that it is P-256, P-384, or P-521.
if [[ "$cert_key_algo" =~ ecdsa ]] || [[ "$cert_key_algo" == *ecPublicKey ]]; then
curve="$($OPENSSL ec -pubin -text <<< "$pubkey" 2>/dev/null)"
curve="${curve#*ASN1 OID: }"
[[ "$curve" == prime256v1* ]] || [[ "$curve" == secp384r1* ]] || \
[[ "$curve" == secp521r1* ]] || return 0
fi
fingerprint="$($OPENSSL pkey -pubin -outform DER <<< "$pubkey" 2>/dev/null | $OPENSSL dgst -sha256 -hex 2>/dev/null)"
fingerprint="${fingerprint#*= }"
response="$(http_get_header "https://v1.pwnedkeys.com/$fingerprint")"
# Handle curl's/wget's connectivity exit codes
case $? in
4|5|7) return 7 ;;
1|2|3|6) return 0 ;;
# unknown codes we just say "not checked"
esac
if [[ "$response" =~ "404 Not Found" ]]; then
return 1
elif [[ "$response" =~ "200 OK" ]]; then
return 2
else
return 0
fi
}
check_revocation_crl() {
local crl="$1"
local jsonID="$2"
local tmpfile=""
local scheme retcode
local -i success
"$PHONE_OUT" || return 0
[[ -n "$GOOD_CA_BUNDLE" ]] || return 0
scheme="$(tolower "${crl%%://*}")"
# The code for obtaining CRLs only supports LDAP, HTTP, and HTTPS URLs.
[[ "$scheme" == http ]] || [[ "$scheme" == https ]] || [[ "$scheme" == ldap ]] || return 0
tmpfile=$TEMPDIR/${NODE}-${NODEIP}.${crl##*\/} || exit $ERR_FCREATE
if [[ "$scheme" == ldap ]]; then
ldap_get "$crl" "$tmpfile" "$jsonID"
success=$?
else
http_get "$crl" "$tmpfile"
success=$?
fi
if [[ $success -eq 2 ]]; then
return 0
elif [[ $success -ne 0 ]]; then
out ", "
pr_warning "retrieval of \"$crl\" failed"
fileout "$jsonID" "WARN" "CRL retrieval from $crl failed"
return 1
fi
# -crl_download could be more elegant but is supported from 1.0.2 onwards only
$OPENSSL crl -inform DER -in "$tmpfile" -outform PEM -out "${tmpfile%%.crl}.pem" &>$ERRFILE
if [[ $? -ne 0 ]]; then
pr_warning "conversion of \"$tmpfile\" failed"
fileout "$jsonID" "WARN" "conversion of CRL to PEM format failed"
return 1
fi
if grep -q "\-\-\-\-\-BEGIN CERTIFICATE\-\-\-\-\-" $TEMPDIR/intermediatecerts.pem; then
$OPENSSL verify -crl_check -CAfile <(cat $ADDTL_CA_FILES "$GOOD_CA_BUNDLE" "${tmpfile%%.crl}.pem") -untrusted $TEMPDIR/intermediatecerts.pem $HOSTCERT &> "${tmpfile%%.crl}.err"
else
$OPENSSL verify -crl_check -CAfile <(cat $ADDTL_CA_FILES "$GOOD_CA_BUNDLE" "${tmpfile%%.crl}.pem") $HOSTCERT &> "${tmpfile%%.crl}.err"
fi
if [[ $? -eq 0 ]]; then
out ", "
pr_svrty_good "not revoked"
fileout "$jsonID" "OK" "not revoked"
else
retcode=$(awk '/error [1-9][0-9]? at [0-9]+ depth lookup:/ { if (!found) {print $2; found=1} }' "${tmpfile%%.crl}.err")
if [[ "$retcode" == 23 ]]; then # see verify_retcode_helper()
out ", "
pr_svrty_critical "revoked"
fileout "$jsonID" "CRITICAL" "revoked"
set_grade_cap "T" "Certificate revoked"
else
retcode="$(verify_retcode_helper "$retcode")"
out " $retcode"
retcode="${retcode#(}"
retcode="${retcode%)}"
fileout "$jsonID" "WARN" "$retcode"
set_grade_cap "T" "Issues with certificate $retcode"
if [[ $DEBUG -ge 2 ]]; then
outln
cat "${tmpfile%%.crl}.err"
fi
fi
fi
return 0
}
check_revocation_ocsp() {
local uri="$1"
local stapled_response="$2"
local jsonID="$3"
local tmpfile=""
local -i success
local response=""
local host_header=""
"$PHONE_OUT" || [[ -n "$stapled_response" ]] || return 0
[[ -n "$GOOD_CA_BUNDLE" ]] || return 0
if [[ -n "$PROXY" ]] && ! "$IGN_OCSP_PROXY"; then
# see #1106 and https://github.com/openssl/openssl/issues/6965
out ", "
pr_warning "revocation not tested as \"openssl ocsp\" doesn't support a proxy"
fileout "$jsonID" "WARN" "Revocation not tested as openssl ocsp doesn't support a proxy"
return 0
fi
grep -q "\-\-\-\-\-BEGIN CERTIFICATE\-\-\-\-\-" $TEMPDIR/intermediatecerts.pem || return 0
tmpfile=$TEMPDIR/${NODE}-${NODEIP}.${uri##*\/} || exit $ERR_FCREATE
if [[ -n "$stapled_response" ]]; then
hex2binary "$stapled_response" > "$TEMPDIR/stapled_ocsp_response.dd"
$OPENSSL ocsp -no_nonce -respin "$TEMPDIR/stapled_ocsp_response.dd" \
-issuer $TEMPDIR/hostcert_issuer.pem -verify_other $TEMPDIR/intermediatecerts.pem \
-CAfile <(cat $ADDTL_CA_FILES "$GOOD_CA_BUNDLE") -cert $HOSTCERT -text &> "$tmpfile"
else
host_header=${uri##http://}
host_header=${host_header%%/*}
if [[ "$OSSL_NAME" =~ LibreSSL ]]; then
host_header="-header Host ${host_header}"
elif [[ $OSSL_VER_MAJOR.$OSSL_VER_MINOR == 1.1.0* ]] || [[ $OSSL_VER_MAJOR.$OSSL_VER_MINOR == 1.1.1* ]] || \
[[ $OSSL_VER_MAJOR.$OSSL_VER_MINOR == 3.0.0* ]]; then
host_header="-header Host=${host_header}"
else
host_header="-header Host ${host_header}"
fi
$OPENSSL ocsp -no_nonce ${host_header} -url "$uri" \
-issuer $TEMPDIR/hostcert_issuer.pem -verify_other $TEMPDIR/intermediatecerts.pem \
-CAfile <(cat $ADDTL_CA_FILES "$GOOD_CA_BUNDLE") -cert $HOSTCERT -text &> "$tmpfile"
fi
if [[ $? -eq 0 ]] && grep -Fq "Response verify OK" "$tmpfile"; then
response="$(grep -F "$HOSTCERT: " "$tmpfile")"
response="${response#$HOSTCERT: }"
response="${response%\.}"
if [[ "$response" =~ "good" ]]; then
out ", "
pr_svrty_good "not revoked"
fileout "$jsonID" "OK" "not revoked"
elif [[ "$response" =~ "revoked" ]]; then
out ", "
pr_svrty_critical "revoked"
fileout "$jsonID" "CRITICAL" "revoked"
set_grade_cap "T" "Certificate revoked"
else
out ", "
pr_warning "error querying OCSP responder"
fileout "$jsonID" "WARN" "$response"
if [[ $DEBUG -ge 2 ]]; then
outln
cat "$tmpfile"
else
out " ($response)"
fi
fi
else
[[ -s "$tmpfile" ]] || response="empty ocsp response"
[[ -z "$response" ]] && response="$(awk '/Responder Error:/ { print $3 }' "$tmpfile")"
[[ -z "$response" ]] && grep -Fq "Response Verify Failure" "$tmpfile" && response="unable to verify response"
[[ -z "$response" ]] && response="$(awk -F':' '/Code/ { print $NF }' $tmpfile)"
out ", "
pr_warning "error querying OCSP responder"
fileout "$jsonID" "WARN" "$response"
if [[ $DEBUG -ge 2 ]]; then
outln
[[ -s "$tmpfile" ]] && cat "$tmpfile" || echo "empty ocsp response"
elif [[ -n "$response" ]]; then
out " ($response)"
fi
fi
}
wait_kill(){
local pid=$1 # pid we wait for or kill
local maxsleep=$2 # how long we wait before killing
HAD_SLEPT=0
while true; do
if ! ps $pid >/dev/null ; then
return 0 # process terminated before didn't reach $maxsleep
fi
[[ "$DEBUG" -ge 6 ]] && ps $pid
sleep 1
maxsleep=$((maxsleep - 1))
HAD_SLEPT=$((HAD_SLEPT + 1))
test $maxsleep -le 0 && break
done # needs to be killed:
kill $pid >&2 2>/dev/null
wait $pid 2>/dev/null # make sure pid terminated, see wait(1p)
return 3 # means killed
}
# Convert date formats -- we always use GMT=UTC here
# argv1: source date string
# argv2: dest date sting
if "$HAS_GNUDATE"; then # Linux and NetBSD
parse_date() {
LC_ALL=C TZ=GMT date -d "$1" "$2"
}
elif "$HAS_FREEBSDDATE"; then # FreeBSD, OS X and newer (~6.6) OpenBSD versions
parse_date() {
LC_ALL=C TZ=GMT date -j -f "$3" "$2" "$1"
}
elif "$HAS_OPENBSDDATE"; then
# We bascially echo it as a conversion as we want it is too difficult. Approach for that would be:
# printf '%s\n' "$1" | awk '{ printf "%04d%02d%02d\n", $4, $2, (index("JanFebMarAprMayJunJulAugSepOctNovDec",$1)+2)/3}'
# 4: year, 1: month, 2: day, $3: time (e.g. "Dec 8 10:16:13 2016")
# This way we could also kind of convert args to epoch but as newer OpenBSDs "date" behave like FreeBSD
parse_date() {
local tmp=""
if [[ $2 == +%s* ]]; then
echo "${1// GMT}"
else
tmp="$(printf '%s\n' "$1" | awk '{ printf "%04d-%02d-%02d %08s\n", $4, (index("JanFebMarAprMayJunJulAugSepOctNovDec",$1)+2)/3, $2, $3 }')"
echo "${tmp%:*}" # remove seconds, result now is in line with GNU date 2016-12-08 10:16
fi
}
else
parse_date() {
LC_ALL=C TZ=GMT date -j "$2" "$1"
}
fi
# Print $arg1 in binary format. arg1: An ASCII-HEX string
# The string represented by $arg1 may be binary data (a certificate or public
# key) or a text string (e.g., ASCII-encoded text).
hex2binary() {
local s="$1"
local -i i len remainder
len=${#s}
[[ $len%2 -ne 0 ]] && return 1
if "$HAS_XXD"; then
xxd -r -p <<< "$s"
else
for (( i=0; i <= len-16 ; i+=16 )); do
printf -- "\x${s:i:2}\x${s:$((i+2)):2}\x${s:$((i+4)):2}\x${s:$((i+6)):2}\x${s:$((i+8)):2}\x${s:$((i+10)):2}\x${s:$((i+12)):2}\x${s:$((i+14)):2}"
done
remainder=$((len-i))
case $remainder in
2) printf -- "\x${s:i:2}" ;;
4) printf -- "\x${s:i:2}\x${s:$((i+2)):2}" ;;
6) printf -- "\x${s:i:2}\x${s:$((i+2)):2}\x${s:$((i+4)):2}" ;;
8) printf -- "\x${s:i:2}\x${s:$((i+2)):2}\x${s:$((i+4)):2}\x${s:$((i+6)):2}" ;;
10) printf -- "\x${s:i:2}\x${s:$((i+2)):2}\x${s:$((i+4)):2}\x${s:$((i+6)):2}\x${s:$((i+8)):2}" ;;
12) printf -- "\x${s:i:2}\x${s:$((i+2)):2}\x${s:$((i+4)):2}\x${s:$((i+6)):2}\x${s:$((i+8)):2}\x${s:$((i+10)):2}" ;;
14) printf -- "\x${s:i:2}\x${s:$((i+2)):2}\x${s:$((i+4)):2}\x${s:$((i+6)):2}\x${s:$((i+8)):2}\x${s:$((i+10)):2}\x${s:$((i+12)):2}" ;;
esac
fi
return 0
}
# convert 414243 into ABC
hex2ascii() {
hex2binary $1
}
# arg1: text string
# Output a comma-separated ASCII-HEX string representation of the input string.
string_to_asciihex() {
local string="$1"
local -i i eos
local output=""
eos=${#string}-1
for (( i=0; i<eos; i++ )); do
output+="$(printf "%02x," "'${string:i:1}")"
done
[[ -n "$string" ]] && output+="$(printf "%02x" "'${string:eos:1}")"
tm_out "$output"
return 0
}
# Adjust options to $OPENSSL s_client based on OpenSSL version and protocol version
s_client_options() {
local options=" $1"
local ciphers="notpresent" tls13_ciphers="notpresent"
# Extract the TLSv1.3 ciphers and the non-TLSv1.3 ciphers
if [[ " $options " =~ " -cipher " ]]; then
ciphers="${options#* -cipher }"
ciphers="${ciphers%% *}"
options="${options//-cipher $ciphers/}"
ciphers="${ciphers##\'}"
ciphers="${ciphers%%\'}"
fi
if [[ " $options " =~ " -ciphersuites " ]]; then
tls13_ciphers="${options#* -ciphersuites }"
tls13_ciphers="${tls13_ciphers%% *}"
options="${options//-ciphersuites $tls13_ciphers/}"
tls13_ciphers="${tls13_ciphers##\'}"
tls13_ciphers="${tls13_ciphers%%\'}"
[[ "$tls13_ciphers" == ALL ]] && tls13_ciphers="$TLS13_OSSL_CIPHERS"
fi
# Don't include the -servername option for an SSLv2 or SSLv3 ClientHello.
[[ -n "$SNI" ]] && [[ " $options " =~ \ -ssl[2|3]\ ]] && options="${options//$SNI/}"
# The server_name extension should not be included in the ClientHello unless
# the -servername option is provided. However, OpenSSL 1.1.1 will include the
# server_name extension unless the -noservername option is provided. So, if
# the command line doesn't include -servername and the -noservername option is
# supported, then add -noservername to the options.
"$HAS_NOSERVERNAME" && [[ ! " $options " =~ " -servername " ]] && options+=" -noservername"
# Newer versions of OpenSSL have dropped support for the -no_ssl2 option, so
# remove any -no_ssl2 option if the option isn't supported. (Since versions of
# OpenSSL that don't support -no_ssl2 also don't support SSLv2, the option
# isn't needed for these versions of OpenSSL.)
! "$HAS_NO_SSL2" && options="${options//-no_ssl2/}"
# At least one server will fail under some circumstances if compression methods are offered.
# So, only offer compression methods if necessary for the test. In OpenSSL 1.1.0 and
# 1.1.1 compression is only offered if the "-comp" option is provided.
# OpenSSL 1.0.0, 1.0.1, and 1.0.2 offer compression unless the "-no_comp" option is provided.
# OpenSSL 0.9.8 does not support either the "-comp" or the "-no_comp" option.
if [[ " $options " =~ " -comp " ]]; then
# Compression is needed for the test. So, remove "-comp" if it isn't supported, but
# otherwise make no changes.
! "$HAS_COMP" && options="${options//-comp/}"
else
# Compression is not needed. So, specify "-no_comp" if that option is supported.
"$HAS_NO_COMP" && options+=" -no_comp"
fi
# If $OPENSSL is compiled with TLSv1.3 support and s_client is called without
# specifying a protocol, but specifying a list of ciphers that doesn't include
# any TLSv1.3 ciphers, then the command will always fail. So, if $OPENSSL supports
# TLSv1.3 and a cipher list is provided, but no protocol is specified, then add
# -no_tls1_3 if no TLSv1.3 ciphers are provided.
if "$HAS_TLS13" && [[ "$ciphers" != notpresent ]] && \
( [[ "$tls13_ciphers" == notpresent ]] || [[ -z "$tls13_ciphers" ]] ) && \
[[ ! " $options " =~ \ -ssl[2|3]\ ]] && \
[[ ! " $options " =~ \ -tls1\ ]] && \
[[ ! " $options " =~ \ -tls1_[1|2|3]\ ]]; then
options+=" -no_tls1_3"
fi
if "$HAS_SECLEVEL"; then
if [[ "$ciphers" == notpresent ]]; then
[[ ! " $options " =~ \ -tls1_3\ ]] && ciphers="@SECLEVEL=0:ALL:COMPLEMENTOFALL"
else
ciphers="@SECLEVEL=0:$ciphers"
fi
fi
if [[ "$ciphers" != notpresent ]] || [[ "$tls13_ciphers" != notpresent ]]; then
if ! "$HAS_CIPHERSUITES"; then
[[ "$ciphers" == notpresent ]] && ciphers=""
[[ "$tls13_ciphers" == notpresent ]] && tls13_ciphers=""
[[ -n "$ciphers" ]] && [[ -n "$tls13_ciphers" ]] && ciphers=":$ciphers"
ciphers="$tls13_ciphers$ciphers"
options+=" -cipher $ciphers"
else
if [[ "$ciphers" != notpresent ]] && [[ -n "$ciphers" ]]; then
options+=" -cipher $ciphers"
fi
if [[ "$tls13_ciphers" != notpresent ]] && [[ -n "$tls13_ciphers" ]]; then
options+=" -ciphersuites $tls13_ciphers"
fi
fi
fi
# OpenSSL's name for secp256r1 is prime256v1. So whenever we encounter this
# (e.g. client simulations) we replace it with the name which OpenSSL understands
# This shouldn't be needed. We have this here as a last resort
if [[ "$1" =~ " -curves " ]]; then
! "$HAS_CURVES" && options="${options// -curves / -groups }"
[[ "$1" =~ secp192r1 ]] && options="${options//secp192r1/prime192v1}"
[[ "$1" =~ secp256r1 ]] && options="${options//secp256r1/prime256v1}"
fi
tm_out "$options $keyopts"
}
###### check code starts here ######
# determines whether the port has an HTTP service running or not (plain TLS, no STARTTLS)
# arg1 could be the protocol determined as "working". IIS6 needs that.
#
service_detection() {
local -i was_killed
if [[ "$CLIENT_AUTH" != required ]]; then
if ! "$HAS_TLS13" && "$TLS13_ONLY"; then
# Using sockets is a lot slower than using OpenSSL, and it is
# not as reliable, but if OpenSSL can't connect to the server,
# trying with sockets is better than not even trying.
tls_sockets "04" "$TLS13_CIPHER" "all+" "" "" false
if [[ $? -eq 0 ]]; then
plaintext="$(tm_out "$GET_REQ11" | hexdump -v -e '16/1 "%02X"')"
plaintext="${plaintext%%[!0-9A-F]*}"
send_app_data "$plaintext"
if [[ $? -eq 0 ]]; then
receive_app_data true
[[ $? -eq 0 ]] || > "$TMPFILE"
else
> "$TMPFILE"
fi
send_close_notify "$DETECTED_TLS_VERSION"
else
> "$TMPFILE"
fi
else
# SNI is not standardized for !HTTPS but fortunately for other protocols s_client doesn't seem to care
tm_out "$GET_REQ11" | $OPENSSL s_client $(s_client_options "$1 -quiet $BUGS -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>$ERRFILE &
wait_kill $! $HEADER_MAXSLEEP
was_killed=$?
fi
head $TMPFILE | grep -aq '^HTTP\/' && SERVICE=HTTP
[[ -z "$SERVICE" ]] && head $TMPFILE | grep -waq "SMTP|ESMTP|Exim|IdeaSmtpServer|Kerio Connect|Postfix" && SERVICE=SMTP # I know some overlap here
[[ -z "$SERVICE" ]] && head $TMPFILE | grep -Ewaq "POP|Gpop|MailEnable POP3 Server|OK Dovecot|Cyrus POP3" && SERVICE=POP # I know some overlap here
[[ -z "$SERVICE" ]] && head $TMPFILE | grep -Ewaq "IMAP|IMAP4|Cyrus IMAP4IMAP4rev1|IMAP4REV1|Gimap" && SERVICE=IMAP # I know some overlap here
[[ -z "$SERVICE" ]] && head $TMPFILE | grep -aq FTP && SERVICE=FTP
[[ -z "$SERVICE" ]] && head $TMPFILE | grep -Eaqi "jabber|xmpp" && SERVICE=XMPP
[[ -z "$SERVICE" ]] && head $TMPFILE | grep -Eaqw "Jive News|InterNetNews|NNRP|INN|Kerio Connect|NNTP Service|Kerio MailServer|NNTP server" && SERVICE=NNTP
# MongoDB port 27017 will respond to a GET request with a mocked HTTP response
[[ "$SERVICE" == HTTP ]] && head $TMPFILE | grep -Eaqw "MongoDB" && SERVICE=MongoDB
debugme head -50 $TMPFILE | sed -e '/<HTML>/,$d' -e '/<html>/,$d' -e '/<XML/,$d' -e '/<xml/,$d' -e '/<\?XML/,$d' -e '/<\?xml/,$d' -e '/<\!DOCTYPE/,$d' -e '/<\!doctype/,$d'
fi
out " Service detected: $CORRECT_SPACES"
jsonID="service"
case $SERVICE in
HTTP)
out " $SERVICE"
fileout "${jsonID}" "INFO" "$SERVICE"
;;
IMAP|POP|SMTP|NNTP|MongoDB)
out " $SERVICE, thus skipping HTTP specific checks"
fileout "${jsonID}" "INFO" "$SERVICE, thus skipping HTTP specific checks"
;;
*) if [[ "$CLIENT_AUTH" == required ]]; then
out " certificate-based authentication => skipping all HTTP checks"
echo "certificate-based authentication => skipping all HTTP checks" >$TMPFILE
fileout "${jsonID}" "INFO" "certificate-based authentication => skipping all HTTP checks"
else
out " Couldn't determine what's running on port $PORT"
if "$ASSUME_HTTP"; then
SERVICE=HTTP
out " -- ASSUME_HTTP set though"
fileout "${jsonID}" "DEBUG" "Couldn't determine service -- ASSUME_HTTP set"
else
out ", assuming no HTTP service => skipping all HTTP checks"
fileout "${jsonID}" "DEBUG" "Couldn't determine service, skipping all HTTP checks"
fi
fi
;;
esac
outln "\n"
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
# 1: counter variable
# 2: threshold for this variable
# 3: string for first occurrence of problem
# 4: string for repeated occurrence of problem
#
connectivity_problem() {
if [[ $1 -lt $2 ]]; then
if "$TLS13_ONLY" && ! "$HAS_TLS13"; then
:
else
prln_warning " Oops: $3"
fi
return 0
fi
if [[ $1 -ge $2 ]]; then
if [[ "$4" =~ openssl\ s_client\ connect ]] ; then
fatal "$4" $ERR_CONNECT "Consider increasing MAX_OSSL_FAIL (currently: $2)"
elif [[ "$4" =~ repeated\ TCP\ connect ]]; then
fatal "$4" $ERR_CONNECT "Consider increasing MAX_SOCKET_FAIL (currently: $2)"
fi
fatal "$4" $ERR_CONNECT
fi
}
#problems not handled: chunked
run_http_header() {
local header
local referer useragent
local url redirect
local jsonID="HTTP_status_code"
local spaces=" "
HEADERFILE=$TEMPDIR/$NODEIP.http_header.txt
if [[ $NR_HEADER_FAIL -eq 0 ]]; then
# skip repeating this line if it's 2nd, 3rd,.. try
outln; pr_headlineln " Testing HTTP header response @ \"$URL_PATH\" "
outln
fi
if [[ $NR_HEADER_FAIL -ge $MAX_HEADER_FAIL ]]; then
# signal to caller we have a problem
return 1
fi
pr_bold " HTTP Status Code "
[[ -z "$1" ]] && url="/" || url="$1"
tm_out "$GET_REQ11" | $OPENSSL s_client $(s_client_options "$OPTIMAL_PROTO $BUGS -quiet -ign_eof -connect $NODEIP:$PORT $PROXY $SNI") >$HEADERFILE 2>$ERRFILE &
wait_kill $! $HEADER_MAXSLEEP
if [[ $? -eq 0 ]]; then
# Issue HTTP GET again as it properly finished within $HEADER_MAXSLEEP and didn't hang.
# Doing it again in the foreground to get an accurate header time
tm_out "$GET_REQ11" | $OPENSSL s_client $(s_client_options "$OPTIMAL_PROTO $BUGS -quiet -ign_eof -connect $NODEIP:$PORT $PROXY $SNI") >$HEADERFILE 2>$ERRFILE
NOW_TIME=$(date "+%s")
HTTP_TIME=$(awk -F': ' '/^date:/ { print $2 } /^Date:/ { print $2 }' $HEADERFILE)
HAD_SLEPT=0
else
# 1st GET request hung and needed to be killed. Check whether it succeeded anyway:
if grep -Eiaq "XML|HTML|DOCTYPE|HTTP|Connection" $HEADERFILE; then
# correct by seconds we slept, HAD_SLEPT comes from wait_kill()
NOW_TIME=$(($(date "+%s") - HAD_SLEPT))
HTTP_TIME=$(awk -F': ' '/^date:/ { print $2 } /^Date:/ { print $2 }' $HEADERFILE)
else
prln_warning " likely HTTP header requests failed (#lines: $(wc -l $HEADERFILE | awk '{ print $1 }'))"
[[ "$DEBUG" -lt 1 ]] && outln "Rerun with DEBUG>=1 and inspect $HEADERFILE\n"
fileout "HTTP_status_code" "WARN" "HTTP header request failed"
debugme cat $HEADERFILE
((NR_HEADER_FAIL++))
fi
fi
if [[ ! -s $HEADERFILE ]]; then
((NR_HEADER_FAIL++))
if [[ $NR_HEADER_FAIL -ge $MAX_HEADER_FAIL ]]; then
# Now, try to give a hint whether it would make sense to try with OpenSSL 1.1.0 or 1.1.1 instead
if [[ $CURVES_OFFERED == X448 ]] && ! "$HAS_X448" ; then
generic_nonfatal "HTTP header was repeatedly zero due to missing X448 curve." "${spaces}OpenSSL 1.1.1 might help. Skipping complete HTTP header section."
elif [[ $CURVES_OFFERED == X25519 ]] && ! "$HAS_X25519" ; then
generic_nonfatal "HTTP header was repeatedly zero due to missing X25519 curve." "${spaces}OpenSSL 1.1.0 might help. Skipping complete HTTP header section."
elif [[ $CURVES_OFFERED =~ X25519 ]] && [[ $CURVES_OFFERED =~ X448 ]] && ! "$HAS_X25519" && ! "$HAS_X448"; then
generic_nonfatal "HTTP header was repeatedly zero due to missing X25519/X448 curves." "${spaces}OpenSSL >=1.1.0 might help. Skipping complete HTTP header section."
else
# we could give more hints but these are the most likely cases
generic_nonfatal "HTTP header was repeatedly zero." "Skipping complete HTTP header section."
fi
KNOWN_OSSL_PROB=true
return 1
else
pr_warning "HTTP header reply empty. "
fileout "$jsonID" "WARN" "HTTP header reply empty"
fi
fi
# Populate vars for HTTP time
debugme echo "NOW_TIME: $NOW_TIME | HTTP_TIME: $HTTP_TIME"
# Quit on first empty line to catch 98% of the cases. Next pattern is there because the SEDs tested
# so far seem not to be fine with header containing x0d x0a (CRLF) which is the usal case.
# So we also trigger also on any sign on a single line which is not alphanumeric (plus _)
sed -e '/^$/q' -e '/^[^a-zA-Z_0-9]$/q' $HEADERFILE >$HEADERFILE.tmp
# Now to be more sure we delete from '<' or '{' maybe with a leading blank until the end
sed -e '/^ *<.*$/d' -e '/^ *{.*$/d' $HEADERFILE.tmp >$HEADERFILE
debugme echo -e "---\n $(< $HEADERFILE) \n---"
HTTP_STATUS_CODE=$(awk '/^HTTP\// { print $2 }' $HEADERFILE 2>>$ERRFILE)
msg_thereafter=$(awk -F"$HTTP_STATUS_CODE" '/^HTTP\// { print $2 }' $HEADERFILE 2>>$ERRFILE) # dirty trick to use the status code as a
msg_thereafter=$(strip_lf "$msg_thereafter") # field separator, otherwise we need a loop with awk
debugme echo "Status/MSG: $HTTP_STATUS_CODE $msg_thereafter"
[[ -n "$HTTP_STATUS_CODE" ]] && out " $HTTP_STATUS_CODE$msg_thereafter"
case $HTTP_STATUS_CODE in
301|302|307|308)
redirect=$(grep -a '^Location' $HEADERFILE | sed 's/Location: //' | tr -d '\r\n')
out ", redirecting to \""; pr_url "$redirect"; out "\""
if [[ $redirect =~ http:// ]]; then
pr_svrty_high " -- Redirect to insecure URL (NOT ok)"
fileout "insecure_redirect" "HIGH" "Redirect to insecure URL: \"$redirect\""
fi
fileout "$jsonID" "INFO" "$HTTP_STATUS_CODE$msg_thereafter (\"$URL_PATH\")"
;;
200|204|403|405)
fileout "$jsonID" "INFO" "$HTTP_STATUS_CODE$msg_thereafter (\"$URL_PATH\")"
;;
206)
out " -- WHAT?"
fileout "$jsonID" "INFO" "$HTTP_STATUS_CODE$msg_thereafter (\"$URL_PATH\") -- WHAT?"
# partial content shouldn't happen
;;
400)
pr_cyan " (Hint: better try another URL)"
fileout "$jsonID" "INFO" "$HTTP_STATUS_CODE$msg_thereafter (\"$URL_PATH\") -- better try another URL"
;;
401)
grep -aq "^WWW-Authenticate" $HEADERFILE && out " "; out "$(strip_lf "$(grep -a "^WWW-Authenticate" $HEADERFILE)")"
fileout "$jsonID" "INFO" "$HTTP_STATUS_CODE$msg_thereafter (\"$URL_PATH\") -- $(grep -a "^WWW-Authenticate" $HEADERFILE)"
;;
404)
out " (Hint: supply a path which doesn't give a \"$HTTP_STATUS_CODE$msg_thereafter\")"
fileout "$jsonID" "INFO" "$HTTP_STATUS_CODE$msg_thereafter (\"$URL_PATH\")"
;;
"")
prln_warning "No HTTP status code."
fileout "$jsonID" "WARN" "No HTTP status code"
return 1
;;
*)
pr_warning ". Oh, didn't expect \"$HTTP_STATUS_CODE$msg_thereafter\""
fileout "$jsonID" "WARN" "Unexpected $HTTP_STATUS_CODE$msg_thereafter @ \"$URL_PATH\""
;;
esac
outln
# we don't call "tmpfile_handle ${FUNCNAME[0]}.txt" as we need the header file in other functions!
return 0
}
# Borrowed from Glenn Jackman, see https://unix.stackexchange.com/users/4667/glenn-jackman
#
match_ipv4_httpheader() {
local octet="(25[0-5]|2[0-4][0-9]|1[0-9][0-9]|[1-9]?[0-9])"
local ipv4address="$octet\\.$octet\\.$octet\\.$octet"
local excluded_header="pagespeed|page-speed|^Content-Security-Policy|^MicrosoftSharePointTeamServices|^X-OWA-Version|^Location|^Server: "
local your_ip_msg="(check if it's your IP address or e.g. a cluster IP)"
local headers result
local first=true
local spaces=" "
local jsonID="ipv4_in_header"
local cwe="CWE-212"
local cve=""
if [[ ! -s $HEADERFILE ]]; then
run_http_header "$1" || return 1
fi
# Exclude some headers as they are mistakenly identified as ipv4 address. Issues #158, #323.
# Also facebook used to have a CSP rule for 127.0.0.1
headers="$(grep -Evai "$excluded_header" $HEADERFILE)"
if [[ "$headers" =~ $ipv4address ]]; then
pr_bold " IPv4 address in header "
while read line; do
[[ "$line" =~ $ipv4address ]] || continue
result=$(strip_lf "$line")
if ! $first; then
out "$spaces"
your_ip_msg=""
else
first=false
fi
pr_svrty_medium "$result"
outln "\n$spaces$your_ip_msg"
fileout "$jsonID" "MEDIUM" "$result $your_ip_msg" "$cve" "$cwe"
done <<< "$headers"
fi
}
run_http_date() {
local difftime
local spaces=" "
jsonID="HTTP_clock_skew"
if [[ $SERVICE != HTTP ]] || [[ "$CLIENT_AUTH" == required ]]; then
return 0
fi
if [[ ! -s $HEADERFILE ]]; then
run_http_header "$1" || return 1
fi
pr_bold " HTTP clock skew "
if [[ -n "$HTTP_TIME" ]]; then
HTTP_TIME="$(strip_lf "$HTTP_TIME")"
if "$HAS_OPENBSDDATE"; then
# We won't normalize the date under an OpenBSD thus no subtraction is feasible
outln "remote: $HTTP_TIME"
out "${spaces}local: $(LC_ALL=C TZ=GMT date "+%a, %d %b %Y %T %Z")"
fileout "$jsonID" "INFO" "$HTTP_TIME - $(TZ=GMT date "+%a, %d %b %Y %T %Z")"
else
HTTP_TIME="$(parse_date "$HTTP_TIME" "+%s" "%a, %d %b %Y %T %Z" 2>>$ERRFILE)"
difftime=$((HTTP_TIME - NOW_TIME))
[[ $difftime != "-"* ]] && [[ $difftime != "0" ]] && difftime="+$difftime"
# process was killed, so we need to add an error
[[ $HAD_SLEPT -ne 0 ]] && difftime="$difftime (± 1.5)"
out "$difftime sec from localtime";
fileout "$jsonID" "INFO" "$difftime seconds from localtime"
fi
else
out "Got no HTTP time, maybe try different URL?";
fileout "$jsonID" "INFO" "Got no HTTP time, maybe try different URL?"
fi
debugme tm_out ", HTTP_TIME in epoch: $HTTP_TIME"
outln
match_ipv4_httpheader "$1"
return 0
}
# HEADERFILE needs to contain the HTTP header (made sure by invoker)
# arg1: key=word to match
# arg2: hint for fileout() if double header
# arg3: indentation, i.e string w spaces
# arg4: whether we need a CR before "misconfiguration"
# returns:
# 0 if header not found
# 1-n nr of headers found, then in HEADERVALUE the first value from key
#
match_httpheader_key() {
local key="$1"
local spaces="$3"
local first=$4
local -i nr=0
nr=$(grep -Eaic "^ *$key:" $HEADERFILE)
if [[ $nr -eq 0 ]]; then
HEADERVALUE=""
return 0
elif [[ $nr -eq 1 ]]; then
HEADERVALUE="$(grep -Eia "^ *$key:" $HEADERFILE)"
HEADERVALUE="${HEADERVALUE#*:}" # remove leading part=key to colon
HEADERVALUE="$(strip_lf "$HEADERVALUE")"
HEADERVALUE="$(strip_leading_space "$HEADERVALUE")"
"$first" || out "$spaces"
return 1
else
"$first" || out "$spaces"
pr_svrty_medium "misconfiguration: "
pr_italic "$key"
pr_svrty_medium " ${nr}x"
outln " -- checking first one only"
out "$spaces"
HEADERVALUE="$(grep -Fai "$key:" $HEADERFILE | head -1)"
HEADERVALUE="${HEADERVALUE#*:}"
HEADERVALUE="$(strip_lf "$HEADERVALUE")"
HEADERVALUE="$(strip_leading_space "$HEADERVALUE")"
[[ $DEBUG -ge 2 ]] && tm_italic "$HEADERVALUE" && tm_out "\n$spaces"
fileout "${2}_multiple" "MEDIUM" "Multiple $2 headers. Using first header: $HEADERVALUE"
return $nr
fi
}
includeSubDomains() {
if grep -aiqw includeSubDomains "$1"; then
pr_svrty_good ", includeSubDomains"
return 0
else
pr_litecyan ", just this domain"
return 1
fi
}
preload() {
if grep -aiqw preload "$1"; then
pr_svrty_good ", preload"
return 0
else
return 1
fi
}
run_hsts() {
local hsts_age_sec
local hsts_age_days
local spaces=" "
local jsonID="HSTS"
if [[ ! -s $HEADERFILE ]]; then
run_http_header "$1" || return 1
fi
pr_bold " Strict Transport Security "
match_httpheader_key "Strict-Transport-Security" "HSTS" "$spaces" "true"
if [[ $? -ne 0 ]]; then
echo "$HEADERVALUE" >$TMPFILE
hsts_age_sec=$(sed -e 's/[^0-9]*//g' <<< $HEADERVALUE)
debugme echo "hsts_age_sec: $hsts_age_sec"
if [[ -n $hsts_age_sec ]]; then
hsts_age_days=$(( hsts_age_sec / 86400))
else
hsts_age_days=-1
fi
if [[ $hsts_age_days -eq -1 ]]; then
pr_svrty_medium "misconfiguration: HSTS max-age (recommended > $HSTS_MIN seconds = $((HSTS_MIN/86400)) days ) is required but missing"
fileout "${jsonID}_time" "MEDIUM" "misconfiguration, parameter max-age (recommended > $HSTS_MIN seconds = $((HSTS_MIN/86400)) days) missing"
set_grade_cap "A" "HSTS max-age is misconfigured"
elif [[ $hsts_age_sec -eq 0 ]]; then
pr_svrty_low "HSTS max-age is set to 0. HSTS is disabled"
fileout "${jsonID}_time" "LOW" "0. HSTS is disabled"
set_grade_cap "A" "HSTS is disabled"
elif [[ $hsts_age_sec -ge $HSTS_MIN ]]; then
pr_svrty_good "$hsts_age_days days" ; out "=$hsts_age_sec s"
fileout "${jsonID}_time" "OK" "$hsts_age_days days (=$hsts_age_sec seconds) > $HSTS_MIN seconds"
else
pr_svrty_medium "$hsts_age_sec s = $hsts_age_days days is too short ( >= $HSTS_MIN seconds recommended)"
fileout "${jsonID}_time" "MEDIUM" "max-age too short. $hsts_age_days days (=$hsts_age_sec seconds) < $HSTS_MIN seconds"
set_grade_cap "A" "HSTS max-age is too short"
fi
if includeSubDomains "$TMPFILE"; then
fileout "${jsonID}_subdomains" "OK" "includes subdomains"
else
fileout "${jsonID}_subdomains" "INFO" "only for this domain"
fi
if preload "$TMPFILE"; then
fileout "${jsonID}_preload" "OK" "domain IS marked for preloading"
else
fileout "${jsonID}_preload" "INFO" "domain is NOT marked for preloading"
#FIXME: To be checked against preloading lists,
# e.g. https://dxr.mozilla.org/mozilla-central/source/security/manager/boot/src/nsSTSPreloadList.inc
# https://chromium.googlesource.com/chromium/src/+/master/net/http/transport_security_state_static.json
fi
else
pr_svrty_low "not offered"
fileout "$jsonID" "LOW" "not offered"
set_grade_cap "A" "HSTS is not offered"
fi
outln
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
run_hpkp() {
local -i hpkp_age_sec
local -i hpkp_age_days
local -i hpkp_nr_keys
local hpkp_spki hpkp_spki_hostcert
local -a backup_spki
local spaces=" "
local spaces_indented=" "
local certificate_found=false
local -i i nrsaved
local first_hpkp_header
local spki
local ca_hashes="$TESTSSL_INSTALL_DIR/etc/ca_hashes.txt"
if [[ ! -s $HEADERFILE ]]; then
run_http_header "$1" || return 1
fi
pr_bold " Public Key Pinning "
grep -aiw '^Public-Key-Pins' $HEADERFILE >$TMPFILE # TMPFILE includes report-only
if [[ $? -eq 0 ]]; then
if [[ $(grep -aci '^Public-Key-Pins:' $TMPFILE) -gt 1 ]]; then
pr_svrty_medium "Misconfiguration, multiple Public-Key-Pins headers"
outln ", taking first line"
fileout "HPKP_error" "MEDIUM" "multiple Public-Key-Pins in header"
first_hpkp_header="$(grep -ai '^Public-Key-Pins:' $TMPFILE | head -1)"
# we only evaluate the keys here, unless they a not present
out "$spaces "
set_grade_cap "A" "Problems with HTTP Public Key Pinning (HPKP)"
elif [[ $(grep -aci '^Public-Key-Pins-Report-Only:' $TMPFILE) -gt 1 ]]; then
outln "Multiple HPKP headers (Report-Only), taking first line"
fileout "HPKP_notice" "INFO" "multiple Public-Key-Pins-Report-Only in header"
first_hpkp_header="$(grep -ai '^Public-Key-Pins-Report-Only:' $TMPFILE | head -1)"
out "$spaces "
elif [[ $(grep -Eaci '^Public-Key-Pins:|^Public-Key-Pins-Report-Only:' $TMPFILE) -eq 2 ]]; then
outln "Public-Key-Pins + Public-Key-Pins-Report-Only detected. Continue with first one"
first_hpkp_header="$(grep -ai '^Public-Key-Pins:' $TMPFILE)"
out "$spaces "
elif [[ $(grep -aci '^Public-Key-Pins:' $TMPFILE) -eq 1 ]]; then
first_hpkp_header="$(grep -ai '^Public-Key-Pins:' $TMPFILE)"
else
outln "Public-Key-Pins-Only detected"
first_hpkp_header="$(grep -ai '^Public-Key-Pins-Report-Only:' $TMPFILE)"
out "$spaces "
fileout "HPKP_SPKIs" "INFO" "Only Public-Key-Pins-Report-Only"
fi
# remove leading Public-Key-Pins* and convert it to multiline arg
sed -e 's/Public-Key-Pins://g' -e s'/Public-Key-Pins-Report-Only://' <<< "$first_hpkp_header" | \
tr ';' '\n' | sed -e 's/\"//g' -e 's/^ //' >$TMPFILE
hpkp_nr_keys=$(grep -ac pin-sha $TMPFILE)
if [[ $hpkp_nr_keys -eq 1 ]]; then
pr_svrty_high "Only one key pinned (NOT ok), means the site may become unavailable in the future, "
fileout "HPKP_SPKIs" "HIGH" "Only one key pinned"
set_grade_cap "A" "Problems with HTTP Public Key Pinning (HPKP)"
else
pr_svrty_good "$hpkp_nr_keys"
out " keys, "
fileout "HPKP_SPKIs" "OK" "$hpkp_nr_keys keys pinned in header"
fi
# print key=value pair with awk, then strip non-numbers, to be improved with proper parsing of key-value with awk
if "$HAS_SED_E"; then
hpkp_age_sec=$(awk -F= '/max-age/{max_age=$2; print max_age}' $TMPFILE | sed -E 's/[^[:digit:]]//g')
else
hpkp_age_sec=$(awk -F= '/max-age/{max_age=$2; print max_age}' $TMPFILE | sed -r 's/[^[:digit:]]//g')
fi
hpkp_age_days=$((hpkp_age_sec / 86400))
if [[ $hpkp_age_sec -ge $HPKP_MIN ]]; then
pr_svrty_good "$hpkp_age_days days" ; out "=$hpkp_age_sec s"
fileout "HPKP_age" "OK" "HPKP age is set to $hpkp_age_days days ($hpkp_age_sec sec)"
else
out "$hpkp_age_sec s = "
pr_svrty_medium "$hpkp_age_days days (< $HPKP_MIN s = $((HPKP_MIN / 86400)) days is not good enough)"
fileout "HPKP_age" "MEDIUM" "age is set to $hpkp_age_days days ($hpkp_age_sec sec) < $HPKP_MIN s = $((HPKP_MIN / 86400)) days is not good enough."
set_grade_cap "A" "Problems with HTTP Public Key Pinning (HPKP)"
fi
if includeSubDomains "$TMPFILE"; then
fileout "HPKP_subdomains" "INFO" "is valid for subdomains as well"
else
fileout "HPKP_subdomains" "INFO" "is valid for this domain only"
fi
if preload "$TMPFILE"; then
fileout "HPKP_preload" "INFO" "IS marked for browser preloading"
else
fileout "HPKP_preload" "INFO" "NOT marked for browser preloading"
fi
# Get the SPKIs first
spki=$(tr ';' '\n' < $TMPFILE | tr -d ' ' | tr -d '\"' | awk -F'=' '/pin.*=/ { print $2 }')
debugme tmln_out "\n$spki"
# Look at the host certificate first
if [[ ! -s "$HOSTCERT" ]]; then
get_host_cert || return 1
# no host certificate
fi
hpkp_spki_hostcert="$($OPENSSL x509 -in $HOSTCERT -pubkey -noout 2>/dev/null | grep -v PUBLIC | \
$OPENSSL base64 -d 2>/dev/null | $OPENSSL dgst -sha256 -binary 2>/dev/null | $OPENSSL base64 2>/dev/null)"
hpkp_ca="$($OPENSSL x509 -in $HOSTCERT -issuer -noout 2>/dev/null |sed 's/^.*CN=//' | sed 's/\/.*$//')"
# Get keys/hashes from intermediate certificates
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS $PROXY -showcerts -connect $NODEIP:$PORT $SNI") </dev/null >$TMPFILE 2>$ERRFILE
# Place the server's certificate in $HOSTCERT and any intermediate
# certificates that were provided in $TEMPDIR/intermediatecerts.pem
# https://backreference.org/2010/05/09/ocsp-verification-with-openssl/
awk -v n=-1 "/Certificate chain/ {start=1}
/-----BEGIN CERTIFICATE-----/{ if (start) {inc=1; n++} }
inc { print > (\"$TEMPDIR/level\" n \".crt\") }
/---END CERTIFICATE-----/{ inc=0 }" $TMPFILE
nrsaved=$(count_words "$(echo $TEMPDIR/level?.crt 2>/dev/null)")
rm $TEMPDIR/level0.crt 2>/dev/null
printf ""> "$TEMPDIR/intermediate.hashes"
if [[ $nrsaved -ge 2 ]]; then
for cert_fname in $TEMPDIR/level?.crt; do
hpkp_spki_ca="$($OPENSSL x509 -in "$cert_fname" -pubkey -noout 2>/dev/null | grep -v PUBLIC | $OPENSSL base64 -d 2>/dev/null |
$OPENSSL dgst -sha256 -binary 2>/dev/null | $OPENSSL enc -base64 2>/dev/null)"
hpkp_name="$(get_cn_from_cert $cert_fname)"
hpkp_ca="$($OPENSSL x509 -in $cert_fname -issuer -noout 2>/dev/null |sed 's/^.*CN=//' | sed 's/\/.*$//')"
[[ -n $hpkp_name ]] || hpkp_name=$($OPENSSL x509 -in "$cert_fname" -subject -noout 2>/dev/null | sed 's/^subject= //')
echo "$hpkp_spki_ca $hpkp_name" >> "$TEMPDIR/intermediate.hashes"
done
fi
# This is where the matching magic starts. First host, intermediate, then root certificate from the supplied stores
spki_match=false
has_backup_spki=false
i=0
for hpkp_spki in $spki; do
certificate_found=false
# compare collected SPKIs against the host certificate
if [[ "$hpkp_spki_hostcert" == "$hpkp_spki" ]] || [[ "$hpkp_spki_hostcert" == "$hpkp_spki=" ]]; then
certificate_found=true # We have a match
spki_match=true
out "\n$spaces_indented Host cert: "
pr_svrty_good "$hpkp_spki"
fileout "HPKP_$hpkp_spki" "OK" "SPKI $hpkp_spki matches the host certificate"
fi
debugme tm_out "\n $hpkp_spki | $hpkp_spki_hostcert"
# Check for intermediate match
if ! "$certificate_found"; then
hpkp_matches=$(grep "$hpkp_spki" $TEMPDIR/intermediate.hashes 2>/dev/null)
if [[ -n $hpkp_matches ]]; then # hpkp_matches + hpkp_spki + '='
# We have a match
certificate_found=true
spki_match=true
out "\n$spaces_indented Sub CA: "
pr_svrty_good "$hpkp_spki"
ca_cn="$(sed "s/^[a-zA-Z0-9\+\/]*=* *//" <<< $"$hpkp_matches" )"
pr_italic " $ca_cn"
fileout "HPKP_$hpkp_spki" "OK" "SPKI $hpkp_spki matches Intermediate CA \"$ca_cn\" pinned in the HPKP header"
fi
fi
# we compare now against a precompiled list of SPKIs against the ROOT CAs we have in $ca_hashes
if ! "$certificate_found"; then
hpkp_matches=$(grep -h "$hpkp_spki" $ca_hashes 2>/dev/null | sort -u)
if [[ -n $hpkp_matches ]]; then
certificate_found=true # root CA found
spki_match=true
if [[ $(count_lines "$hpkp_matches") -eq 1 ]]; then
# replace by awk
match_ca=$(sed "s/[a-zA-Z0-9\+\/]*=* *//" <<< "$hpkp_matches")
else
match_ca=""
fi
ca_cn="$(sed "s/^[a-zA-Z0-9\+\/]*=* *//" <<< $"$hpkp_matches" )"
if [[ "$match_ca" == "$hpkp_ca" ]]; then # part of the chain
out "\n$spaces_indented Root CA: "
pr_svrty_good "$hpkp_spki"
pr_italic " $ca_cn"
fileout "HPKP_$hpkp_spki" "INFO" "SPKI $hpkp_spki matches Root CA \"$ca_cn\" pinned. (Root CA part of the chain)"
else # not part of chain
match_ca=""
has_backup_spki=true # Root CA outside the chain --> we save it for unmatched
fileout "HPKP_$hpkp_spki" "INFO" "SPKI $hpkp_spki matches Root CA \"$ca_cn\" pinned. (Root backup SPKI)"
backup_spki[i]="$(strip_lf "$hpkp_spki")" # save it for later
backup_spki_str[i]="$ca_cn" # also the name=CN of the root CA
i=$((i + 1))
fi
fi
fi
# still no success --> it's probably a backup SPKI
if ! "$certificate_found"; then
# Most likely a backup SPKI, unfortunately we can't tell for what it is: host, intermediates
has_backup_spki=true
backup_spki[i]="$(strip_lf "$hpkp_spki")" # save it for later
backup_spki_str[i]="" # no root ca
i=$((i + 1))
fileout "HPKP_$hpkp_spki" "INFO" "SPKI $hpkp_spki doesn't match anything. This is ok for a backup for any certificate"
# CSV/JSON output here for the sake of simplicity, rest we do en bloc below
fi
done
# now print every backup spki out we saved before
out "\n$spaces_indented Backups: "
# for i=0 manually do the same as below as there's other indentation here
if [[ -n "${backup_spki_str[0]}" ]]; then
pr_svrty_good "${backup_spki[0]}"
#out " Root CA: "
prln_italic " ${backup_spki_str[0]}"
else
outln "${backup_spki[0]}"
fi
# now for i=1
for ((i=1; i < ${#backup_spki[@]} ;i++ )); do
if [[ -n "${backup_spki_str[i]}" ]]; then
# it's a Root CA outside the chain
pr_svrty_good "$spaces_indented ${backup_spki[i]}"
#out " Root CA: "
prln_italic " ${backup_spki_str[i]}"
else
outln "$spaces_indented ${backup_spki[i]}"
fi
done
if [[ ! -f "$ca_hashes" ]] && "$spki_match"; then
out "$spaces "
prln_warning "Attribution of further hashes couldn't be done as $ca_hashes could not be found"
fileout "HPKP_SPKImatch" "WARN" "Attribution of further hashes possible as $ca_hashes could not be found"
fi
# If all else fails...
if ! "$spki_match"; then
"$has_backup_spki" && out "$spaces" # we had a few lines with backup SPKIs already
prln_svrty_high " No matching key for SPKI found "
fileout "HPKP_SPKImatch" "HIGH" "None of the SPKI match your host certificate, intermediate CA or known root CAs. Bricked site?"
set_grade_cap "A" "Problems with HTTP Public Key Pinning (HPKP)"
fi
if ! "$has_backup_spki"; then
prln_svrty_high " No backup keys found. Loss/compromise of the currently pinned key(s) will lead to bricked site. "
fileout "HPKP_backup" "HIGH" "No backup keys found. Loss/compromise of the currently pinned key(s) will lead to bricked site."
set_grade_cap "A" "Problems with HTTP Public Key Pinning (HPKP)"
fi
else
outln "--"
fileout "HPKP" "INFO" "No support for HTTP Public Key Pinning"
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
emphasize_stuff_in_headers(){
local html_brown="<span style=\\\"color:#8a7237;\\\">"
local html_yellow="<span style=\\\"color:#8a7237;font-weight:bold;\\\">"
local html_off="<\\/span>"
# see https://www.grymoire.com/Unix/Sed.html#uh-3
# outln "$1" | sed "s/[0-9]*/$brown&${off}/g"
tmln_out "$1" | sed -e "s/\([0-9]\)/${brown}\1${off}/g" \
-e "s/Unix/${yellow}Unix${off}/g" \
-e "s/Debian/${yellow}Debian${off}/g" \
-e "s/Win32/${yellow}Win32${off}/g" \
-e "s/Win64/${yellow}Win64${off}/g" \
-e "s/Ubuntu/${yellow}Ubuntu${off}/g" \
-e "s/ubuntu/${yellow}ubuntu${off}/g" \
-e "s/buster/${yellow}buster${off}/g" \
-e "s/stretch/${yellow}stretch${off}/g" \
-e "s/jessie/${yellow}jessie${off}/g" \
-e "s/squeeze/${yellow}squeeze${off}/g" \
-e "s/wheezy/${yellow}wheezy${off}/g" \
-e "s/lenny/${yellow}lenny${off}/g" \
-e "s/SUSE/${yellow}SUSE${off}/g" \
-e "s/Red Hat Enterprise Linux/${yellow}Red Hat Enterprise Linux${off}/g" \
-e "s/Red Hat/${yellow}Red Hat${off}/g" \
-e "s/CentOS/${yellow}CentOS${off}/g" \
-e "s/Via/${yellow}Via${off}/g" \
-e "s/X-Forwarded/${yellow}X-Forwarded${off}/g" \
-e "s/X-TYPO3-Parsetime/${yellow}X-TYPO3-Parsetime${off}/g" \
-e "s/Liferay-Portal/${yellow}Liferay-Portal${off}/g" \
-e "s/X-Cache-Lookup/${yellow}X-Cache-Lookup${off}/g" \
-e "s/X-Cache/${yellow}X-Cache${off}/g" \
-e "s/X-Squid/${yellow}X-Squid${off}/g" \
-e "s/X-Server/${yellow}X-Server${off}/g" \
-e "s/X-Varnish/${yellow}X-Varnish${off}/g" \
-e "s/X-OWA-Version/${yellow}X-OWA-Version${off}/g" \
-e "s/MicrosoftSharePointTeamServices/${yellow}MicrosoftSharePointTeamServices${off}/g" \
-e "s/X-Application-Context/${yellow}X-Application-Context${off}/g" \
-e "s/X-Version/${yellow}X-Version${off}/g" \
-e "s/X-Powered-By/${yellow}X-Powered-By${off}/g" \
-e "s/X-UA-Compatible/${yellow}X-UA-Compatible${off}/g" \
-e "s/Link/${yellow}Link${off}/g" \
-e "s/X-Rack-Cache/${yellow}X-Rack-Cache${off}/g" \
-e "s/X-Runtime/${yellow}X-Runtime${off}/g" \
-e "s/X-Pingback/${yellow}X-Pingback${off}/g" \
-e "s/X-Permitted-Cross-Domain-Policies/${yellow}X-Permitted-Cross-Domain-Policies${off}/g" \
-e "s/X-AspNet-Version/${yellow}X-AspNet-Version${off}/g" \
-e "s/x-note/${yellow}x-note${off}/g" \
-e "s/x-global-transaction-id/${yellow}x-global-transaction-id${off}/g" \
-e "s/X-Global-Transaction-ID/${yellow}X-Global-Transaction-ID${off}/g" \
-e "s/Alt-Svc/${yellow}Alt-Svc${off}/g" \
-e "s/system-wsgw-management-loopback/${yellow}system-wsgw-management-loopback${off}/g"
if "$do_html"; then
if [[ $COLOR -ge 2 ]]; then
html_out "$(tm_out "$1" | sed -e 's/\&/\&amp;/g' \
-e 's/</\&lt;/g' -e 's/>/\&gt;/g' -e 's/"/\&quot;/g' -e "s/'/\&apos;/g" \
-e "s/\([0-9]\)/${html_brown}\1${html_off}/g" \
-e "s/Unix/${html_yellow}Unix${html_off}/g" \
-e "s/Debian/${html_yellow}Debian${html_off}/g" \
-e "s/Win32/${html_yellow}Win32${html_off}/g" \
-e "s/Win64/${html_yellow}Win64${html_off}/g" \
-e "s/Ubuntu/${html_yellow}Ubuntu${html_off}/g" \
-e "s/ubuntu/${html_yellow}ubuntu${html_off}/g" \
-e "s/buster/${html_yellow}buster${html_off}/g" \
-e "s/stretch/${html_yellow}stretch${html_off}/g" \
-e "s/jessie/${html_yellow}jessie${html_off}/g" \
-e "s/squeeze/${html_yellow}squeeze${html_off}/g" \
-e "s/wheezy/${html_yellow}wheezy${html_off}/g" \
-e "s/lenny/${html_yellow}lenny${html_off}/g" \
-e "s/SUSE/${html_yellow}SUSE${html_off}/g" \
-e "s/Red Hat Enterprise Linux/${html_yellow}Red Hat Enterprise Linux${html_off}/g" \
-e "s/Red Hat/${html_yellow}Red Hat${html_off}/g" \
-e "s/CentOS/${html_yellow}CentOS${html_off}/g" \
-e "s/Via/${html_yellow}Via${html_off}/g" \
-e "s/X-Forwarded/${html_yellow}X-Forwarded${html_off}/g" \
-e "s/X-TYPO3-Parsetime/${yellow}X-TYPO3-Parsetime${html_off}/g" \
-e "s/Liferay-Portal/${html_yellow}Liferay-Portal${html_off}/g" \
-e "s/X-Cache-Lookup/${html_yellow}X-Cache-Lookup${html_off}/g" \
-e "s/X-Cache/${html_yellow}X-Cache${html_off}/g" \
-e "s/X-Squid/${html_yellow}X-Squid${html_off}/g" \
-e "s/X-Server/${html_yellow}X-Server${html_off}/g" \
-e "s/X-Varnish/${html_yellow}X-Varnish${html_off}/g" \
-e "s/X-OWA-Version/${html_yellow}X-OWA-Version${html_off}/g" \
-e "s/MicrosoftSharePointTeamServices/${html_yellow}MicrosoftSharePointTeamServices${html_off}/g" \
-e "s/X-Application-Context/${html_yellow}X-Application-Context${html_off}/g" \
-e "s/X-Version/${html_yellow}X-Version${html_off}/g" \
-e "s/X-Powered-By/${html_yellow}X-Powered-By${html_off}/g" \
-e "s/X-UA-Compatible/${html_yellow}X-UA-Compatible${html_off}/g" \
-e "s/Link/${html_yellow}Link${html_off}/g" \
-e "s/X-Runtime/${html_yellow}X-Runtime${html_off}/g" \
-e "s/X-Rack-Cache/${html_yellow}X-Rack-Cache${html_off}/g" \
-e "s/X-Pingback/${html_yellow}X-Pingback${html_off}/g" \
-e "s/X-Permitted-Cross-Domain-Policies/${html_yellow}X-Permitted-Cross-Domain-Policies${html_off}/g" \
-e "s/X-AspNet-Version/${html_yellow}X-AspNet-Version${html_off}/g")" \
-e "s/x-note/${html_yellow}x-note${html_off}/g" \
-e "s/X-Global-Transaction-ID/${html_yellow}X-Global-Transaction-ID${html_off}/g" \
-e "s/x-global-transaction-id/${html_yellow}x-global-transaction-id${html_off}/g" \
-e "s/Alt-Svc/${html_yellow}Alt-Svc${html_off}/g" \
-e "s/system-wsgw-management-loopback/${html_yellow}system-wsgw-management-loopback${html_off}/g"
#FIXME: this is double code. The pattern to emphasize would fit better into
# one function.
# Also we need another function like run_other_header as otherwise "Link" "Alt-Svc" will never be found.
# And: I matches case sensitive only which might not detect all banners. (sed ignorecase is not possible w/ BSD sed)
else
html_out "$(html_reserved "$1")"
fi
html_out "\n"
fi
}
run_server_banner() {
local serverbanner
local jsonID="banner_server"
if [[ ! -s $HEADERFILE ]]; then
run_http_header "$1" || return 1
fi
pr_bold " Server banner "
grep -ai '^Server' $HEADERFILE >$TMPFILE
if [[ $? -eq 0 ]]; then
serverbanner=$(sed -e 's/^Server: //' -e 's/^server: //' $TMPFILE)
if [[ "$serverbanner" == $'\n' ]] || [[ "$serverbanner" == $'\r' ]] || [[ "$serverbanner" == $'\n\r' ]] || [[ -z "$serverbanner" ]]; then
outln "exists but empty string"
fileout "$jsonID" "INFO" "Server banner is empty"
else
emphasize_stuff_in_headers "$serverbanner"
fileout "$jsonID" "INFO" "$serverbanner"
if [[ "$serverbanner" == *Microsoft-IIS/6.* ]] && [[ $OSSL_VER == 1.0.2* ]]; then
prln_warning " It's recommended to run another test w/ OpenSSL 1.0.1 !"
# see https://github.com/PeterMosmans/openssl/issues/19#issuecomment-100897892
fileout "${jsonID}" "WARN" "IIS6_openssl_mismatch: Recommended to rerun this test w/ OpenSSL 1.0.1. See https://github.com/PeterMosmans/openssl/issues/19#issuecomment-100897892"
fi
fi
# mozilla.github.io/server-side-tls/ssl-config-generator/
# https://support.microsoft.com/en-us/kb/245030
else
outln "(no \"Server\" line in header, interesting!)"
fileout "$jsonID" "INFO" "No Server banner line in header, interesting!"
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
run_appl_banner() {
local line
local first=true
local spaces=" "
local appl_banners=""
local jsonID="banner_application"
if [[ ! -s $HEADERFILE ]]; then
run_http_header "$1" || return 1
fi
pr_bold " Application banner "
grep -Eai '^X-Powered-By|^X-AspNet-Version|^X-Version|^Liferay-Portal|^X-TYPO3-Parsetime|^X-OWA-Version^|^MicrosoftSharePointTeamServices' $HEADERFILE >$TMPFILE
if [[ $? -ne 0 ]]; then
outln "--"
fileout "$jsonID" "INFO" "No application banner found"
else
while IFS='' read -r line; do
line=$(strip_lf "$line")
if ! $first; then
out "$spaces"
appl_banners="${appl_banners}, ${line}"
else
appl_banners="${line}"
first=false
fi
emphasize_stuff_in_headers "$line"
done < "$TMPFILE"
fileout "$jsonID" "INFO" "$appl_banners"
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
run_rp_banner() {
local line
local first=true
local spaces=" "
local rp_banners=""
local jsonID="banner_reverseproxy"
local cwe="CWE-200"
local cve=""
if [[ ! -s $HEADERFILE ]]; then
run_http_header "$1" || return 1
fi
pr_bold " Reverse Proxy banner "
grep -Eai '^Via:|^X-Cache|^X-Squid|^X-Varnish:|^X-Server-Name:|^X-Server-Port:|^x-forwarded|^Forwarded' $HEADERFILE >$TMPFILE
if [[ $? -ne 0 ]]; then
outln "--"
fileout "$jsonID" "INFO" "--" "$cve" "$cwe"
else
while read line; do
line=$(strip_lf "$line")
if $first; then
first=false
else
out "$spaces"
fi
emphasize_stuff_in_headers "$line"
rp_banners="${rp_banners}${line}"
done < $TMPFILE
fileout "$jsonID" "INFO" "$rp_banners" "$cve" "$cwe"
fi
outln
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
# arg1: multiline string w cookies
#
sub_f5_bigip_check() {
local allcookies="$1"
local ip port cookievalue cookiename
local routed_domain offset
local savedcookies=""
local spaces="$2"
local cwe="CWE-212"
local cve=""
# taken from https://github.com/drwetter/F5-BIGIP-Decoder, more details see there
debugme echo -e "all cookies: >> $allcookies <<\n"
while true; do IFS='=' read cookiename cookievalue
[[ -z "$cookievalue" ]] && break
cookievalue=${cookievalue/;/}
debugme echo $cookiename : $cookievalue
if grep -Eq '[0-9]{9,10}\.[0-9]{3,5}\.0000' <<< "$cookievalue"; then
ip="$(f5_ip_oldstyle "$cookievalue")"
port="$(f5_port_decode $cookievalue)"
out "${spaces}F5 cookie (default IPv4 pool member): "; pr_italic "$cookiename "; prln_svrty_medium "${ip}:${port}"
fileout "cookie_bigip_f5" "MEDIUM" "Information leakage: F5 cookie $cookiename $cookievalue is default IPv4 pool member ${ip}:${port}" "$cve" "$cwe"
elif grep -Eq '^rd[0-9]{1,3}o0{20}f{4}[a-f0-9]{8}o[0-9]{1,5}' <<< "$cookievalue"; then
routed_domain="$(f5_determine_routeddomain "$cookievalue")"
offset=$(( 2 + ${#routed_domain} + 1 + 24))
port="${cookievalue##*o}"
ip="$(f5_hex2ip "${cookievalue:$offset:8}")"
out "${spaces}F5 cookie (IPv4 pool in routed domain "; pr_svrty_medium "$routed_domain"; out "): "; pr_italic "$cookiename "; prln_svrty_medium "${ip}:${port}"
fileout "cookie_bigip_f5" "MEDIUM" "Information leakage: F5 cookie $cookiename $cookievalue is IPv4 pool member in routed domain $routed_domain ${ip}:${port}" "$cve" "$cwe"
elif grep -Eq '^vi[a-f0-9]{32}\.[0-9]{1,5}' <<< "$cookievalue"; then
ip="$(f5_hex2ip6 ${cookievalue:2:32})"
port="${cookievalue##*.}"
port=$(f5_port_decode "$port")
out "${spaces}F5 cookie (default IPv6 pool member): "; pr_italic "$cookiename "; prln_svrty_medium "${ip}:${port}"
fileout "cookie_bigip_f5" "MEDIUM" "Information leakage: F5 cookie $cookiename $cookievalue is default IPv6 pool member ${ip}:${port}" "$cve" "$cwe"
elif grep -Eq '^rd[0-9]{1,3}o[a-f0-9]{32}o[0-9]{1,5}' <<< "$cookievalue"; then
routed_domain="$(f5_determine_routeddomain "$cookievalue")"
offset=$(( 2 + ${#routed_domain} + 1 ))
port="${cookievalue##*o}"
ip="$(f5_hex2ip6 ${cookievalue:$offset:32})"
out "${spaces}F5 cookie (IPv6 pool in routed domain "; pr_svrty_medium "$routed_domain"; out "): "; pr_italic "$cookiename "; prln_svrty_medium "${ip}:${port}"
fileout "cookie_bigip_f5" "MEDIUM" "Information leakage: F5 cookie $cookiename $cookievalue is IPv6 pool member in routed domain $routed_domain ${ip}:${port}" "$cve" "$cwe"
elif grep -Eq '^\!.*=$' <<< "$cookievalue"; then
if [[ "${#cookievalue}" -eq 81 ]] ; then
savedcookies="${savedcookies} ${cookiename}=${cookievalue:1:79}"
out "${spaces}Encrypted F5 cookie named "; pr_italic "${cookiename}"; outln " detected"
fileout "cookie_bigip_f5" "INFO" "encrypted F5 cookie named ${cookiename}"
fi
fi
done <<< "$allcookies"
}
run_cookie_flags() { # ARG1: Path
local -i nr_cookies
local -i nr_httponly nr_secure
local negative_word
local msg302="" msg302_=""
local spaces=" "
if [[ ! -s $HEADERFILE ]]; then
run_http_header "$1" || return 1
fi
if [[ ! "$HTTP_STATUS_CODE" =~ 20 ]]; then
if [[ "$HTTP_STATUS_CODE" =~ [301|302] ]]; then
msg302=" -- maybe better try target URL of 30x"
msg302_=" (30x detected, better try target URL of 30x)"
else
msg302=" -- HTTP status $HTTP_STATUS_CODE signals you maybe missed the web application"
msg302_=" (maybe missed the application)"
fi
fi
pr_bold " Cookie(s) "
grep -ai '^Set-Cookie' $HEADERFILE >$TMPFILE
if [[ $? -ne 0 ]]; then
outln "(none issued at \"$1\")$msg302"
fileout "cookie_count" "INFO" "0 at \"$1\"$msg302_"
else
nr_cookies=$(count_lines "$(cat $TMPFILE)")
out "$nr_cookies issued: "
fileout "cookie_count" "INFO" "$nr_cookies at \"$1\"$msg302_"
if [[ $nr_cookies -gt 1 ]]; then
negative_word="NONE"
else
negative_word="NOT"
fi
nr_secure=$(grep -iac secure $TMPFILE)
case $nr_secure in
0) pr_svrty_medium "$negative_word" ;;
[123456789]) pr_svrty_good "$nr_secure/$nr_cookies";;
esac
out " secure, "
if [[ $nr_cookies -eq $nr_secure ]]; then
fileout "cookie_secure" "OK" "All ($nr_cookies) at \"$1\" marked as secure"
else
fileout "cookie_secure" "INFO" "$nr_secure/$nr_cookies at \"$1\" marked as secure"
fi
nr_httponly=$(grep -cai httponly $TMPFILE)
case $nr_httponly in
0) pr_svrty_medium "$negative_word" ;;
[123456789]) pr_svrty_good "$nr_httponly/$nr_cookies";;
esac
out " HttpOnly"
if [[ $nr_cookies -eq $nr_httponly ]]; then
fileout "cookie_httponly" "OK" "All ($nr_cookies) at \"$1\" marked as HttpOnly$msg302_"
else
fileout "cookie_httponly" "INFO" "$nr_secure/$nr_cookies at \"$1\" marked as HttpOnly$msg302_"
fi
outln "$msg302"
allcookies="$(awk '/[Ss][Ee][Tt]-[Cc][Oo][Oo][Kk][Ii][Ee]:/ { print $2 }' "$TMPFILE")"
sub_f5_bigip_check "$allcookies" "$spaces"
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
run_security_headers() {
local header header_output svrty header_and_svrty
local first=true
local spaces=" "
local have_header=false
if [[ ! -s $HEADERFILE ]]; then
run_http_header "$1" || return 1
fi
pr_bold " Security headers "
# X-XSS-Protection is useless and at worst harmful, see https://news.ycombinator.com/item?id=20472947
for header_and_svrty in "X-Frame-Options OK" \
"X-Content-Type-Options OK" \
"Content-Security-Policy OK" \
"X-Content-Security-Policy OK" \
"X-WebKit-CSP OK" \
"Content-Security-Policy-Report-Only OK" \
"Expect-CT OK" \
"Permissions-Policy OK" \
"X-XSS-Protection INFO" \
"Access-Control-Allow-Origin INFO" \
"Upgrade INFO" \
"X-Served-By INFO" \
"Referrer-Policy INFO" \
"X-UA-Compatible INFO" \
"Cache-Control INFO" \
"Pragma INFO"; do
read header svrty <<< "${header_and_svrty}"
[[ "$DEBUG" -ge 5 ]] && echo "testing \"$header\" (severity \"$svrty\")"
match_httpheader_key "$header" "$header" "$spaces" "$first"
if [[ $? -ge 1 ]]; then
have_header=true
if "$first"; then
first=false
fi
case "$svrty" in
OK) pr_svrty_good "$header" ;;
LOW) pr_svrty_low "$header" ;;
INFO) out "$header" ;;
esac
# Include $header when determining where to insert line breaks, but print $header
# separately.
header_output="$(out_row_aligned_max_width "${header:2}: $HEADERVALUE" "$spaces " $TERM_WIDTH)"
outln "${header_output#${header:2}}"
fileout "$header" "$svrty" "$HEADERVALUE"
fi
done
#TODO: I am not testing for the correctness or anything stupid yet, e.g. "X-Frame-Options: allowall" or Access-Control-Allow-Origin: *
if ! "$have_header"; then
prln_svrty_medium "--"
fileout "security_headers" "MEDIUM" "--"
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
# #1: string with 2 opensssl codes, output is same in NSS/ssllabs terminology
normalize_ciphercode() {
if [[ "${1:2:2}" == "00" ]]; then
tm_out "$(tolower "x${1:7:2}")"
else
tm_out "$(tolower "x${1:2:2}${1:7:2}${1:12:2}")"
fi
return 0
}
prettyprint_local() {
local arg line
local hexc hexcode dash ciph sslvers kx auth enc mac export
local re='^[0-9A-Fa-f]+$'
if [[ "$1" == 0x* ]] || [[ "$1" == 0X* ]]; then
fatal "pls supply x<number> instead" $ERR_CMDLINE
fi
if [[ -z "$1" ]]; then
pr_headline " Displaying all $OPENSSL_NR_CIPHERS local ciphers ";
else
pr_headline " Displaying all local ciphers ";
# pattern provided; which one?
[[ $1 =~ $re ]] && \
pr_headline "matching number pattern \"$1\" " || \
pr_headline "matching word pattern "\"$1\"" (ignore case) "
fi
outln "\n"
neat_header
if [[ -z "$1" ]]; then
while read -r hexcode dash ciph sslvers kx auth enc mac export ; do
hexc="$(normalize_ciphercode $hexcode)"
outln "$(neat_list "$hexc" "$ciph" "$kx" "$enc" "$export")"
done < <(actually_supported_osslciphers 'ALL:COMPLEMENTOFALL:@STRENGTH' 'ALL' "-V") # -V doesn't work with openssl < 1.0
else
#for arg in $(echo $@ | sed 's/,/ /g'); do
for arg in ${*//,/ /}; do
while read -r hexcode dash ciph sslvers kx auth enc mac export ; do
hexc="$(normalize_ciphercode $hexcode)"
# for numbers we don't do word matching:
[[ $arg =~ $re ]] && \
line="$(neat_list "$hexc" "$ciph" "$kx" "$enc" "$export" | grep -ai "$arg")" || \
line="$(neat_list "$hexc" "$ciph" "$kx" "$enc" "$export" | grep -wai "$arg")"
[[ -n "$line" ]] && outln "$line"
done < <(actually_supported_osslciphers 'ALL:COMPLEMENTOFALL:@STRENGTH' 'ALL' "-V") # -V doesn't work with openssl < 1.0
done
fi
outln
return 0
}
# Generic function for a rated output, no used yet.
# arg1: rating from 2 to -4 if available or not
# arg2: no/yes: decides whether positive or negative logic will be applied and "not" will be printed
# arg3: jsonID
#
rated_output() {
local jsonID=$3
local logic=""
if [[ $2 == no ]] || [[ $2 == negative ]]; then
logic="not "
fi
case $1 in
2) pr_svrty_best "${logic}offered (OK)"
fileout "${jsonID}" "OK" "${logic}offered"
;;
1) pr_svrty_good "${logic}offered (OK)"
fileout "${jsonID}" "OK" "${logic}offered"
;;
0) out "${logic}offered"
fileout "${jsonID}" "INFO" "${logic}offered"
;;
-1) pr_svrty_low "${logic}offered"
fileout "${jsonID}" "LOW" "${logic}offered"
;;
-2) pr_svrty_medium "${logic}offered"
fileout "${jsonID}" "MEDIUM" "${logic}offered"
;;
-3) pr_svrty_high "${logic}offered (NOT ok)"
fileout "${jsonID}" "HIGH" "${logic}offered"
;;
-4) pr_svrty_critical "${logic}offered (NOT ok)"
fileout "${jsonID}" "CRITICAL" "${logic}offered"
;;
*) pr_warning "FIXME: error around $LINENO, (please report this)"
fileout "${jsonID}" "WARN" "return condition $2 when $1 unclear"
return 1
;;
esac
return 0
}
openssl2rfc() {
local rfcname=""
local -i i
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
[[ "$1" == ${TLS_CIPHER_OSSL_NAME[i]} ]] && rfcname="${TLS_CIPHER_RFC_NAME[i]}" && break
done
[[ "$rfcname" == "-" ]] && rfcname=""
[[ -n "$rfcname" ]] && tm_out "$rfcname"
return 0
}
rfc2openssl() {
local ossl_name
local -i i
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
[[ "$1" == ${TLS_CIPHER_RFC_NAME[i]} ]] && ossl_name="${TLS_CIPHER_OSSL_NAME[i]}" && break
done
[[ "$ossl_name" == "-" ]] && ossl_name=""
[[ -n "$ossl_name" ]] && tm_out "$ossl_name"
return 0
}
openssl2hexcode() {
local hexc=""
local -i i
if [[ $TLS_NR_CIPHERS -eq 0 ]]; then
if "$HAS_CIPHERSUITES"; then
hexc="$($OPENSSL ciphers -V -ciphersuites "$TLS13_OSSL_CIPHERS" 'ALL:COMPLEMENTOFALL:@STRENGTH' | awk '/ '"$1"' / { print $1 }')"
else
hexc="$($OPENSSL ciphers -V 'ALL:COMPLEMENTOFALL:@STRENGTH' | awk '/ '"$1"' / { print $1 }')"
fi
else
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
[[ "$1" == ${TLS_CIPHER_OSSL_NAME[i]} ]] && hexc="${TLS_CIPHER_HEXCODE[i]}" && break
done
fi
[[ -z "$hexc" ]] && return 1
tm_out "$hexc"
return 0
}
rfc2hexcode() {
local hexc=""
local -i i
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
[[ "$1" == ${TLS_CIPHER_RFC_NAME[i]} ]] && hexc="${TLS_CIPHER_HEXCODE[i]}" && break
done
[[ -z "$hexc" ]] && return 1
tm_out "$hexc"
return 0
}
show_rfc_style(){
local rfcname="" hexcode
local -i i
hexcode="$(toupper "$1")"
case ${#hexcode} in
3) hexcode="0x00,0x${hexcode:1:2}" ;;
5) hexcode="0x${hexcode:1:2},0x${hexcode:3:2}" ;;
7) hexcode="0x${hexcode:1:2},0x${hexcode:3:2},0x${hexcode:5:2}" ;;
*) return 1 ;;
esac
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
[[ "$hexcode" == ${TLS_CIPHER_HEXCODE[i]} ]] && rfcname="${TLS_CIPHER_RFC_NAME[i]}" && break
done
[[ "$rfcname" == "-" ]] && rfcname=""
[[ -n "$rfcname" ]] && tm_out "$rfcname"
return 0
}
neat_header(){
if [[ "$DISPLAY_CIPHERNAMES" =~ rfc ]]; then
out "$(printf -- "Hexcode Cipher Suite Name (IANA/RFC) KeyExch. Encryption Bits")"
[[ "$DISPLAY_CIPHERNAMES" != rfc-only ]] && out "$(printf -- " Cipher Suite Name (OpenSSL)")"
outln
out "$(printf -- "%s------------------------------------------------------------------------------------------")"
[[ "$DISPLAY_CIPHERNAMES" != rfc-only ]] && out "$(printf -- "---------------------------------------")"
outln
else
out "$(printf -- "Hexcode Cipher Suite Name (OpenSSL) KeyExch. Encryption Bits")"
[[ "$DISPLAY_CIPHERNAMES" != openssl-only ]] && out "$(printf -- " Cipher Suite Name (IANA/RFC)")"
outln
out "$(printf -- "%s--------------------------------------------------------------------------")"
[[ "$DISPLAY_CIPHERNAMES" != openssl-only ]] && out "$(printf -- "---------------------------------------------------")"
outln
fi
}
# arg1: hexcode
# arg2: cipher in openssl notation
# arg3: keyexchange
# arg4: encryption (maybe included "export")
# arg5: "export" if the cipher is an export-quality cipher, empty otherwise.
# arg6: "true" if the cipher's "quality" should be highlighted
# "false" if the line should be printed in light grey
# empty if line should be returned as a string
neat_list(){
local hexcode="$1"
local ossl_cipher="$2" export="$5" tls_cipher=""
local kx enc strength line what_dh bits
local -i i len
kx="${3//Kx=/}"
enc="${4//Enc=/}"
# In two cases LibreSSL uses very long names for encryption algorithms
# and doesn't include the number of bits.
[[ "$enc" == ChaCha20-Poly1305 ]] && enc="CHACHA20(256)"
[[ "$enc" == GOST-28178-89-CNT ]] && enc="GOST(256)"
strength="${enc//\)/}" # retrieve (). first remove traling ")"
strength="${strength#*\(}" # exfiltrate (VAL
enc="${enc%%\(*}"
enc="${enc//POLY1305/}" # remove POLY1305
enc="${enc//\//}" # remove "/"
# For rating set bit size
set_ciph_str_score $strength
[[ "$export" =~ export ]] && strength="$strength,exp"
[[ "$DISPLAY_CIPHERNAMES" != openssl-only ]] && tls_cipher="$(show_rfc_style "$hexcode")"
if [[ "$6" != true ]]; then
if [[ "$DISPLAY_CIPHERNAMES" =~ rfc ]]; then
line="$(printf -- " %-7s %-49s %-10s %-12s%-8s" "$hexcode" "$tls_cipher" "$kx" "$enc" "$strength")"
[[ "$DISPLAY_CIPHERNAMES" != rfc-only ]] && line+="$(printf -- " %-33s${SHOW_EACH_C:+ %-0s}" "$ossl_cipher")"
else
line="$(printf -- " %-7s %-33s %-10s %-12s%-8s" "$hexcode" "$ossl_cipher" "$kx" "$enc" "$strength")"
[[ "$DISPLAY_CIPHERNAMES" != openssl-only ]] && line+="$(printf -- " %-49s${SHOW_EACH_C:+ %-0s}" "$tls_cipher")"
fi
if [[ -z "$6" ]]; then
tm_out "$line"
else
pr_deemphasize "$line"
fi
return 0
fi
if [[ "$kx" =~ " " ]]; then
what_dh="${kx%% *}"
bits="${kx##* }"
else
what_dh="$kx"
bits=""
fi
if [[ "$COLOR" -le 2 ]]; then
if [[ "$DISPLAY_CIPHERNAMES" =~ rfc ]]; then
out "$(printf -- " %-7s %-49s " "$hexcode" "$tls_cipher")"
else
out "$(printf -- " %-7s %-33s " "$hexcode" "$ossl_cipher")"
fi
else
out "$(printf -- " %-7s " "$hexcode")"
if [[ "$DISPLAY_CIPHERNAMES" =~ rfc ]]; then
print_fixed_width "$tls_cipher" 49 pr_cipher_quality
else
print_fixed_width "$ossl_cipher" 33 pr_cipher_quality
fi
fi
out "$what_dh"
if [[ -n "$bits" ]]; then
if [[ $what_dh == DH ]] || [[ $what_dh == EDH ]]; then
pr_dh_quality "$bits" " $bits"
elif [[ $what_dh == ECDH ]]; then
pr_ecdh_quality "$bits" " $bits"
fi
fi
len=${#kx}
print_n_spaces "$((10-len))"
out "$(printf -- " %-12s%-8s " "$enc" "$strength")"
if [[ "$COLOR" -le 2 ]]; then
if [[ "$DISPLAY_CIPHERNAMES" == rfc ]]; then
out "$(printf -- "%-33s${SHOW_EACH_C:+ %-0s}" "$ossl_cipher")"
elif [[ "$DISPLAY_CIPHERNAMES" == openssl ]]; then
out "$(printf -- "%-49s${SHOW_EACH_C:+ %-0s}" "$tls_cipher")"
fi
else
if [[ "$DISPLAY_CIPHERNAMES" == rfc ]]; then
print_fixed_width "$ossl_cipher" 32 pr_cipher_quality
elif [[ "$DISPLAY_CIPHERNAMES" == openssl ]]; then
print_fixed_width "$tls_cipher" 48 pr_cipher_quality
fi
out "$(printf -- "${SHOW_EACH_C:+ %-0s}")"
fi
}
run_cipher_match(){
local hexc n auth ciphers_to_test tls13_ciphers_to_test supported_sslv2_ciphers s
local -a hexcode normalized_hexcode ciph sslvers kx enc export2 sigalg
local -a ciphers_found ciphers_found2 ciph2 rfc_ciph rfc_ciph2 ossl_supported
local -a -i index
local -i nr_ciphers=0 nr_ossl_ciphers=0 nr_nonossl_ciphers=0
local -i num_bundles bundle_size bundle end_of_bundle
local dhlen has_dh_bits="$HAS_DH_BITS"
local cipher proto protos_to_try
local available
local -i sclient_success
local re='^[0-9A-Fa-f]+$'
local using_sockets=true
"$SSL_NATIVE" && using_sockets=false
"$FAST" && using_sockets=false
[[ $TLS_NR_CIPHERS == 0 ]] && using_sockets=false
pr_headline " Testing ciphers with "
if [[ $1 =~ $re ]]; then
pr_headline "matching number pattern \"$1\" "
tjolines="$tjolines matching number pattern \"$1\"\n\n"
else
pr_headline "word pattern "\"$1\"" (ignore case) "
tjolines="$tjolines word pattern \"$1\" (ignore case)\n\n"
fi
outln
if ! "$using_sockets"; then
[[ $TLS_NR_CIPHERS == 0 ]] && ! "$SSL_NATIVE" && ! "$FAST" && pr_warning " Cipher mapping not available, doing a fallback to openssl"
if ! "$HAS_DH_BITS"; then
[[ $TLS_NR_CIPHERS == 0 ]] && ! "$SSL_NATIVE" && ! "$FAST" && out "."
prln_warning " (Your $OPENSSL cannot show DH/ECDH bits)"
fi
fi
outln
neat_header
#for arg in $(echo $@ | sed 's/,/ /g'); do
for arg in ${*//, /}; do
if "$using_sockets" || [[ $OSSL_VER_MAJOR -lt 1 ]]; then
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
hexc="${TLS_CIPHER_HEXCODE[i]}"
if [[ ${#hexc} -eq 9 ]]; then
hexcode[nr_ciphers]="${hexc:2:2},${hexc:7:2}"
if [[ "${hexc:2:2}" == 00 ]]; then
normalized_hexcode[nr_ciphers]="x${hexc:7:2}"
else
normalized_hexcode[nr_ciphers]="x${hexc:2:2}${hexc:7:2}"
fi
else
hexc="$(tolower "$hexc")"
hexcode[nr_ciphers]="${hexc:2:2},${hexc:7:2},${hexc:12:2}"
normalized_hexcode[nr_ciphers]="x${hexc:2:2}${hexc:7:2}${hexc:12:2}"
fi
if [[ $arg =~ $re ]]; then
neat_list "${normalized_hexcode[nr_ciphers]}" "${TLS_CIPHER_OSSL_NAME[i]}" "${TLS_CIPHER_KX[i]}" "${TLS_CIPHER_ENC[i]}" "${TLS_CIPHER_EXPORT[i]}" | grep -qai "$arg"
else
neat_list "${normalized_hexcode[nr_ciphers]}" "${TLS_CIPHER_OSSL_NAME[i]}" "${TLS_CIPHER_KX[i]}" "${TLS_CIPHER_ENC[i]}" "${TLS_CIPHER_EXPORT[i]}" | grep -qwai "$arg"
fi
if [[ $? -eq 0 ]] && ( "$using_sockets" || "${TLS_CIPHER_OSSL_SUPPORTED[i]}" ); then # string matches, so we can ssl to it:
normalized_hexcode[nr_ciphers]="$(tolower "${normalized_hexcode[nr_ciphers]}")"
ciph[nr_ciphers]="${TLS_CIPHER_OSSL_NAME[i]}"
rfc_ciph[nr_ciphers]="${TLS_CIPHER_RFC_NAME[i]}"
kx[nr_ciphers]="${TLS_CIPHER_KX[i]}"
enc[nr_ciphers]="${TLS_CIPHER_ENC[i]}"
sslvers[nr_ciphers]="${TLS_CIPHER_SSLVERS[i]}"
export2[nr_ciphers]="${TLS_CIPHER_EXPORT[i]}"
ciphers_found[nr_ciphers]=false
sigalg[nr_ciphers]=""
ossl_supported[nr_ciphers]="${TLS_CIPHER_OSSL_SUPPORTED[i]}"
if "$using_sockets" && ! "$has_dh_bits" && \
( [[ ${kx[nr_ciphers]} == "Kx=ECDH" ]] || [[ ${kx[nr_ciphers]} == "Kx=DH" ]] || [[ ${kx[nr_ciphers]} == "Kx=EDH" ]] ); then
ossl_supported[nr_ciphers]=false
fi
nr_ciphers+=1
fi
done
else
while read hexc n ciph[nr_ciphers] sslvers[nr_ciphers] kx[nr_ciphers] auth enc[nr_ciphers] mac export2[nr_ciphers]; do
hexc="$(normalize_ciphercode $hexc)"
# is argument a number?
if [[ $arg =~ $re ]]; then
neat_list "$hexc" "${ciph[nr_ciphers]}" "${kx[nr_ciphers]}" "${enc[nr_ciphers]}" "${export2[nr_ciphers]}" | grep -qai "$arg"
else
neat_list "$hexc" "${ciph[nr_ciphers]}" "${kx[nr_ciphers]}" "${enc[nr_ciphers]}" "${export2[nr_ciphers]}" | grep -qwai "$arg"
fi
if [[ $? -eq 0 ]]; then # string matches, so we can ssl to it:
ciphers_found[nr_ciphers]=false
normalized_hexcode[nr_ciphers]="$hexc"
sigalg[nr_ciphers]=""
ossl_supported[nr_ciphers]=true
nr_ciphers+=1
fi
done < <(actually_supported_osslciphers 'ALL:COMPLEMENTOFALL:@STRENGTH' 'ALL' "-V")
fi
# Test the SSLv2 ciphers, if any.
if "$using_sockets"; then
ciphers_to_test=""
for (( i=0; i < nr_ciphers; i++ )); do
if [[ "${sslvers[i]}" == SSLv2 ]]; then
ciphers_to_test+=", ${hexcode[i]}"
fi
done
if [[ -n "$ciphers_to_test" ]]; then
sslv2_sockets "${ciphers_to_test:2}" "true"
if [[ $? -eq 3 ]] && [[ "$V2_HELLO_CIPHERSPEC_LENGTH" -ne 0 ]]; then
supported_sslv2_ciphers="$(grep "Supported cipher: " "$TEMPDIR/$NODEIP.parse_sslv2_serverhello.txt")"
"$SHOW_SIGALGO" && s="$(read_sigalg_from_file "$HOSTCERT")"
for (( i=0 ; i<nr_ciphers; i++ )); do
if [[ "${sslvers[i]}" == SSLv2 ]] && [[ "$supported_sslv2_ciphers" =~ ${normalized_hexcode[i]} ]]; then
ciphers_found[i]=true
"$SHOW_SIGALGO" && sigalg[i]="$s"
fi
done
fi
fi
else
ciphers_to_test=""
for (( i=0; i < nr_ciphers; i++ )); do
if [[ "${sslvers[i]}" == SSLv2 ]]; then
ciphers_to_test+=":${ciph[i]}"
fi
done
if [[ -n "$ciphers_to_test" ]]; then
$OPENSSL s_client -cipher "${ciphers_to_test:1}" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY -ssl2 >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? "$TMPFILE"
if [[ $? -eq 0 ]]; then
supported_sslv2_ciphers="$(grep -A 4 "Ciphers common between both SSL endpoints:" $TMPFILE)"
"$SHOW_SIGALGO" && s="$(read_sigalg_from_file "$TMPFILE")"
for (( i=0 ; i<nr_ciphers; i++ )); do
if [[ "${sslvers[i]}" == SSLv2 ]] && [[ "$supported_sslv2_ciphers" =~ ${ciph[i]} ]]; then
ciphers_found[i]=true
"$SHOW_SIGALGO" && sigalg[i]="$s"
fi
done
fi
fi
fi
for (( i=0; i < nr_ciphers; i++ )); do
if "${ossl_supported[i]}" && [[ "${sslvers[i]}" != "SSLv2" ]]; then
ciphers_found2[nr_ossl_ciphers]=false
ciph2[nr_ossl_ciphers]="${ciph[i]}"
index[nr_ossl_ciphers]=$i
nr_ossl_ciphers+=1
fi
done
if [[ $nr_ossl_ciphers -eq 0 ]]; then
num_bundles=0
else
# Some servers can't handle a handshake with >= 128 ciphers. So,
# test cipher suites in bundles of 128 or less.
num_bundles=$nr_ossl_ciphers/128
[[ $((nr_ossl_ciphers%128)) -ne 0 ]] && num_bundles+=1
bundle_size=$nr_ossl_ciphers/$num_bundles
[[ $((nr_ossl_ciphers%num_bundles)) -ne 0 ]] && bundle_size+=1
fi
if "$HAS_TLS13"; then
protos_to_try="-no_ssl2 -tls1_2 -tls1_1 -tls1"
else
protos_to_try="-no_ssl2 -tls1_1 -tls1"
fi
"$HAS_SSL3" && protos_to_try+=" -ssl3"
for proto in $protos_to_try; do
if [[ "$proto" == -tls1_1 ]]; then
num_bundles=1
bundle_size=$nr_ossl_ciphers
fi
for (( bundle=0; bundle < num_bundles; bundle++ )); do
end_of_bundle=$(( (bundle+1)*bundle_size ))
[[ $end_of_bundle -gt $nr_ossl_ciphers ]] && end_of_bundle=$nr_ossl_ciphers
while true; do
ciphers_to_test=""
tls13_ciphers_to_test=""
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
if ! "${ciphers_found2[i]}"; then
if [[ "${ciph2[i]}" == TLS13* ]] || [[ "${ciph2[i]}" == TLS_* ]] || [[ "${ciph2[i]}" == AEAD-* ]]; then
tls13_ciphers_to_test+=":${ciph2[i]}"
else
ciphers_to_test+=":${ciph2[i]}"
fi
fi
done
[[ -z "$ciphers_to_test" ]] && [[ -z "$tls13_ciphers_to_test" ]] && break
$OPENSSL s_client $(s_client_options "$proto -cipher "\'${ciphers_to_test:1}\'" -ciphersuites "\'${tls13_ciphers_to_test:1}\'" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? "$TMPFILE" || break
cipher=$(get_cipher $TMPFILE)
[[ -z "$cipher" ]] && break
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
[[ "$cipher" == "${ciph2[i]}" ]] && ciphers_found2[i]=true && break
done
[[ $i -eq $end_of_bundle ]] && break
i=${index[i]}
ciphers_found[i]=true
if [[ "$cipher" == TLS13* ]] || [[ "$cipher" == TLS_* ]] || [[ "$cipher" == AEAD-* ]]; then
kx[i]="$(read_dhtype_from_file $TMPFILE)"
fi
if [[ ${kx[i]} == "Kx=ECDH" ]] || [[ ${kx[i]} == "Kx=DH" ]] || [[ ${kx[i]} == "Kx=EDH" ]]; then
dhlen=$(read_dhbits_from_file "$TMPFILE" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$SHOW_SIGALGO" && grep -q "\-\-\-\-\-BEGIN CERTIFICATE\-\-\-\-\-" $TMPFILE && \
sigalg[i]="$(read_sigalg_from_file "$TMPFILE")"
done
done
done
if "$using_sockets"; then
for (( i=0; i < nr_ciphers; i++ )); do
if ! "${ciphers_found[i]}" && [[ "${sslvers[i]}" != "SSLv2" ]]; then
ciphers_found2[nr_nonossl_ciphers]=false
hexcode2[nr_nonossl_ciphers]="${hexcode[i]}"
rfc_ciph2[nr_nonossl_ciphers]="${rfc_ciph[i]}"
index[nr_nonossl_ciphers]=$i
nr_nonossl_ciphers+=1
fi
done
fi
if [[ $nr_nonossl_ciphers -eq 0 ]]; then
num_bundles=0
else
# Some servers can't handle a handshake with >= 128 ciphers. So,
# test cipher suites in bundles of 128 or less.
num_bundles=$nr_nonossl_ciphers/128
[[ $((nr_nonossl_ciphers%128)) -ne 0 ]] && num_bundles+=1
bundle_size=$nr_nonossl_ciphers/$num_bundles
[[ $((nr_nonossl_ciphers%num_bundles)) -ne 0 ]] && bundle_size+=1
fi
for proto in 04 03 02 01 00; do
for (( bundle=0; bundle < num_bundles; bundle++ )); do
end_of_bundle=$(( (bundle+1)*bundle_size ))
[[ $end_of_bundle -gt $nr_nonossl_ciphers ]] && end_of_bundle=$nr_nonossl_ciphers
while true; do
ciphers_to_test=""
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
! "${ciphers_found2[i]}" && ciphers_to_test+=", ${hexcode2[i]}"
done
[[ -z "$ciphers_to_test" ]] && break
[[ "$proto" == 04 ]] && [[ ! "$ciphers_to_test" =~ ,\ 13,[0-9a-f][0-9a-f] ]] && break
ciphers_to_test="$(strip_inconsistent_ciphers "$proto" "$ciphers_to_test")"
[[ -z "$ciphers_to_test" ]] && break
if "$SHOW_SIGALGO"; then
tls_sockets "$proto" "${ciphers_to_test:2}, 00,ff" "all"
else
tls_sockets "$proto" "${ciphers_to_test:2}, 00,ff" "ephemeralkey"
fi
sclient_success=$?
[[ $sclient_success -ne 0 ]] && [[ $sclient_success -ne 2 ]] && break
cipher=$(get_cipher "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
[[ "$cipher" == "${rfc_ciph2[i]}" ]] && ciphers_found2[i]=true && break
done
[[ $i -eq $end_of_bundle ]] && break
i=${index[i]}
ciphers_found[i]=true
[[ "${kx[i]}" == "Kx=any" ]] && kx[i]="$(read_dhtype_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")"
if [[ ${kx[i]} == "Kx=ECDH" ]] || [[ ${kx[i]} == "Kx=DH" ]] || [[ ${kx[i]} == "Kx=EDH" ]]; then
dhlen=$(read_dhbits_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$SHOW_SIGALGO" && [[ -r "$HOSTCERT" ]] && \
sigalg[i]="$(read_sigalg_from_file "$HOSTCERT")"
done
done
done
for (( i=0; i < nr_ciphers; i++ )); do
"${ciphers_found[i]}" || "$SHOW_EACH_C" || continue
neat_list "${normalized_hexcode[i]}" "${ciph[i]}" "${kx[i]}" "${enc[i]}" "${export2[i]}" "${ciphers_found[i]}"
available=""
if "$SHOW_EACH_C"; then
if "${ciphers_found[i]}"; then
available="available"
pr_cyan "available"
else
available="not a/v"
pr_deemphasize "not a/v"
fi
fi
outln "${sigalg[i]}"
fileout "cipher_${normalized_hexcode[i]}" "INFO" "$(neat_list "${normalized_hexcode[i]}" "${ciph[i]}" "${kx[i]}" "${enc[i]}" "${export2[i]}") $available"
done
"$using_sockets" && HAS_DH_BITS="$has_dh_bits"
tmpfile_handle ${FUNCNAME[0]}.txt
done
outln
tmpfile_handle ${FUNCNAME[0]}.txt
return 0 # this is a single test for a cipher
}
# Test for all ciphers locally configured (w/o distinguishing whether they are good or bad)
#
run_allciphers() {
local -i nr_ciphers_tested=0 nr_ciphers=0 nr_ossl_ciphers=0 nr_nonossl_ciphers=0 sclient_success=0
local n auth mac hexc sslv2_ciphers="" s
local -a normalized_hexcode hexcode ciph sslvers kx enc export2 sigalg ossl_supported
local -i i end_of_bundle bundle bundle_size num_bundles
local -a ciphers_found ciphers_found2 hexcode2 ciph2 rfc_ciph2
local -i -a index
local proto protos_to_try
local dhlen available ciphers_to_test tls13_ciphers_to_test supported_sslv2_ciphers
local has_dh_bits="$HAS_DH_BITS"
local using_sockets=true
"$SSL_NATIVE" && using_sockets=false
"$FAST" && using_sockets=false
[[ $TLS_NR_CIPHERS == 0 ]] && using_sockets=false
# get a list of all the cipher suites to test
if "$using_sockets" || [[ $OSSL_VER_MAJOR -lt 1 ]]; then
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
hexc="$(tolower "${TLS_CIPHER_HEXCODE[i]}")"
ciph[i]="${TLS_CIPHER_OSSL_NAME[i]}"
sslvers[i]="${TLS_CIPHER_SSLVERS[i]}"
kx[i]="${TLS_CIPHER_KX[i]}"
enc[i]="${TLS_CIPHER_ENC[i]}"
export2[i]="${TLS_CIPHER_EXPORT[i]}"
ciphers_found[i]=false
sigalg[i]=""
ossl_supported[i]=${TLS_CIPHER_OSSL_SUPPORTED[i]}
if "$using_sockets" && ! "$HAS_DH_BITS" && ( [[ ${kx[i]} == Kx=ECDH ]] || [[ ${kx[i]} == Kx=DH ]] || [[ ${kx[i]} == Kx=EDH ]] ); then
ossl_supported[i]=false
fi
if [[ ${#hexc} -eq 9 ]]; then
hexcode[i]="${hexc:2:2},${hexc:7:2}"
if [[ "${hexc:2:2}" == 00 ]]; then
normalized_hexcode[i]="x${hexc:7:2}"
else
normalized_hexcode[i]="x${hexc:2:2}${hexc:7:2}"
fi
else
hexcode[i]="${hexc:2:2},${hexc:7:2},${hexc:12:2}"
normalized_hexcode[i]="x${hexc:2:2}${hexc:7:2}${hexc:12:2}"
sslv2_ciphers="$sslv2_ciphers, ${hexcode[i]}"
fi
if "$using_sockets" || "${TLS_CIPHER_OSSL_SUPPORTED[i]}"; then
nr_ciphers_tested+=1
fi
done
nr_ciphers=$TLS_NR_CIPHERS
else
while read -r hexc n ciph[nr_ciphers] sslvers[nr_ciphers] kx[nr_ciphers] auth enc[nr_ciphers] mac export2[nr_ciphers]; do
ciphers_found[nr_ciphers]=false
if [[ ${#hexc} -eq 9 ]]; then
if [[ "${hexc:2:2}" == 00 ]]; then
normalized_hexcode[nr_ciphers]="$(tolower "x${hexc:7:2}")"
else
normalized_hexcode[nr_ciphers]="$(tolower "x${hexc:2:2}${hexc:7:2}")"
fi
else
normalized_hexcode[nr_ciphers]="$(tolower "x${hexc:2:2}${hexc:7:2}${hexc:12:2}")"
fi
sigalg[nr_ciphers]=""
ossl_supported[nr_ciphers]=true
nr_ciphers=$nr_ciphers+1
done < <(actually_supported_osslciphers 'ALL:COMPLEMENTOFALL:@STRENGTH' 'ALL' "-V")
nr_ciphers_tested=$nr_ciphers
fi
if "$using_sockets"; then
sslv2_sockets "${sslv2_ciphers:2}" "true"
if [[ $? -eq 3 ]] && [[ "$V2_HELLO_CIPHERSPEC_LENGTH" -ne 0 ]]; then
supported_sslv2_ciphers="$(grep "Supported cipher: " "$TEMPDIR/$NODEIP.parse_sslv2_serverhello.txt")"
"$SHOW_SIGALGO" && s="$(read_sigalg_from_file "$HOSTCERT")"
for (( i=0 ; i<nr_ciphers; i++ )); do
if [[ "${sslvers[i]}" == SSLv2 ]] && [[ "$supported_sslv2_ciphers" =~ ${normalized_hexcode[i]} ]]; then
ciphers_found[i]=true
"$SHOW_SIGALGO" && sigalg[i]="$s"
fi
done
fi
elif "$HAS_SSL2"; then
$OPENSSL s_client $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY -ssl2 >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? "$TMPFILE"
if [[ $? -eq 0 ]]; then
supported_sslv2_ciphers="$(grep -A 4 "Ciphers common between both SSL endpoints:" $TMPFILE)"
"$SHOW_SIGALGO" && s="$(read_sigalg_from_file "$TMPFILE")"
for (( i=0 ; i<nr_ciphers; i++ )); do
if [[ "${sslvers[i]}" == SSLv2 ]] && [[ "$supported_sslv2_ciphers" =~ ${ciph[i]} ]]; then
ciphers_found[i]=true
"$SHOW_SIGALGO" && sigalg[i]="$s"
fi
done
fi
fi
outln
if "$using_sockets"; then
pr_headlineln " Testing $nr_ciphers_tested ciphers via OpenSSL plus sockets against the server, ordered by encryption strength "
else
pr_headlineln " Testing all $nr_ciphers_tested locally available ciphers against the server, ordered by encryption strength "
[[ $TLS_NR_CIPHERS == 0 ]] && ! "$SSL_NATIVE" && ! "$FAST" && pr_warning " Cipher mapping not available, doing a fallback to openssl"
outln
if ! "$HAS_DH_BITS"; then
[[ $TLS_NR_CIPHERS == 0 ]] && ! "$SSL_NATIVE" && ! "$FAST" && out "."
prln_warning " Your $OPENSSL cannot show DH/ECDH bits"
fi
fi
outln
neat_header
for (( i=0; i < nr_ciphers; i++ )); do
if "${ossl_supported[i]}"; then
[[ "${sslvers[i]}" == SSLv2 ]] && continue
ciphers_found2[nr_ossl_ciphers]=false
ciph2[nr_ossl_ciphers]="${ciph[i]}"
index[nr_ossl_ciphers]=$i
nr_ossl_ciphers+=1
fi
done
if [[ $nr_ossl_ciphers -eq 0 ]]; then
num_bundles=0
else
# Some servers can't handle a handshake with >= 128 ciphers. So,
# test cipher suites in bundles of 128 or less.
num_bundles=$nr_ossl_ciphers/128
[[ $((nr_ossl_ciphers%128)) -ne 0 ]] && num_bundles+=1
bundle_size=$nr_ossl_ciphers/$num_bundles
[[ $((nr_ossl_ciphers%num_bundles)) -ne 0 ]] && bundle_size+=1
fi
if "$HAS_TLS13"; then
protos_to_try="-no_ssl2 -tls1_2 -tls1_1 -tls1"
else
protos_to_try="-no_ssl2 -tls1_1 -tls1"
fi
"$HAS_SSL3" && protos_to_try+=" -ssl3"
for proto in $protos_to_try; do
if [[ "$proto" == -tls1_1 ]]; then
num_bundles=1
bundle_size=$nr_ossl_ciphers
fi
[[ "$proto" != "-no_ssl2" ]] && [[ $(has_server_protocol "${proto:1}") -eq 1 ]] && continue
for (( bundle=0; bundle < num_bundles; bundle++ )); do
end_of_bundle=$(( (bundle+1)*bundle_size ))
[[ $end_of_bundle -gt $nr_ossl_ciphers ]] && end_of_bundle=$nr_ossl_ciphers
while true; do
ciphers_to_test=""
tls13_ciphers_to_test=""
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
if ! "${ciphers_found2[i]}"; then
if [[ "${ciph2[i]}" == TLS13* ]] || [[ "${ciph2[i]}" == TLS_* ]] || [[ "${ciph2[i]}" == AEAD-* ]]; then
tls13_ciphers_to_test+=":${ciph2[i]}"
else
ciphers_to_test+=":${ciph2[i]}"
fi
fi
done
[[ -z "$ciphers_to_test" ]] && [[ -z "$tls13_ciphers_to_test" ]] && break
$OPENSSL s_client $(s_client_options "$proto -cipher "\'${ciphers_to_test:1}\'" -ciphersuites "\'${tls13_ciphers_to_test:1}\'" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? "$TMPFILE" || break
cipher=$(get_cipher $TMPFILE)
[[ -z "$cipher" ]] && break
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
[[ "$cipher" == "${ciph2[i]}" ]] && ciphers_found2[i]=true && break
done
[[ $i -eq $end_of_bundle ]] && break
i=${index[i]}
ciphers_found[i]=true
if [[ "$cipher" == TLS13* ]] || [[ "$cipher" == TLS_* ]] || [[ "$cipher" == AEAD-* ]]; then
kx[i]="$(read_dhtype_from_file $TMPFILE)"
fi
if [[ ${kx[i]} == Kx=ECDH ]] || [[ ${kx[i]} == Kx=DH ]] || [[ ${kx[i]} == Kx=EDH ]]; then
dhlen=$(read_dhbits_from_file "$TMPFILE" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$SHOW_SIGALGO" && grep -q "\-\-\-\-\-BEGIN CERTIFICATE\-\-\-\-\-" $TMPFILE && \
sigalg[i]="$(read_sigalg_from_file "$TMPFILE")"
done
done
done
if "$using_sockets"; then
for (( i=0; i < nr_ciphers; i++ )); do
if ! "${ciphers_found[i]}"; then
[[ "${sslvers[i]}" == SSLv2 ]] && continue
ciphers_found2[nr_nonossl_ciphers]=false
hexcode2[nr_nonossl_ciphers]="${hexcode[i]}"
rfc_ciph2[nr_nonossl_ciphers]="${TLS_CIPHER_RFC_NAME[i]}"
index[nr_nonossl_ciphers]=$i
nr_nonossl_ciphers+=1
fi
done
fi
if [[ $nr_nonossl_ciphers -eq 0 ]]; then
num_bundles=0
else
# Some servers can't handle a handshake with >= 128 ciphers. So,
# test cipher suites in bundles of 128 or less.
num_bundles=$nr_nonossl_ciphers/128
[[ $((nr_nonossl_ciphers%128)) -ne 0 ]] && num_bundles+=1
bundle_size=$nr_nonossl_ciphers/$num_bundles
[[ $((nr_nonossl_ciphers%num_bundles)) -ne 0 ]] && bundle_size+=1
fi
for proto in 04 03 02 01 00; do
for (( bundle=0; bundle < num_bundles; bundle++ )); do
end_of_bundle=$(( (bundle+1)*bundle_size ))
[[ $end_of_bundle -gt $nr_nonossl_ciphers ]] && end_of_bundle=$nr_nonossl_ciphers
while true; do
ciphers_to_test=""
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
! "${ciphers_found2[i]}" && ciphers_to_test+=", ${hexcode2[i]}"
done
[[ -z "$ciphers_to_test" ]] && break
[[ "$proto" == 04 ]] && [[ ! "$ciphers_to_test" =~ ,\ 13,[0-9a-f][0-9a-f] ]] && break
ciphers_to_test="$(strip_inconsistent_ciphers "$proto" "$ciphers_to_test")"
[[ -z "$ciphers_to_test" ]] && break
if "$SHOW_SIGALGO"; then
tls_sockets "$proto" "${ciphers_to_test:2}, 00,ff" "all"
else
tls_sockets "$proto" "${ciphers_to_test:2}, 00,ff" "ephemeralkey"
fi
sclient_success=$?
[[ $sclient_success -ne 0 ]] && [[ $sclient_success -ne 2 ]] && break
cipher=$(get_cipher "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
[[ "$cipher" == "${rfc_ciph2[i]}" ]] && ciphers_found2[i]=true && break
done
[[ $i -eq $end_of_bundle ]] && break
i=${index[i]}
ciphers_found[i]=true
[[ "${kx[i]}" == "Kx=any" ]] && kx[i]="$(read_dhtype_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")"
if [[ ${kx[i]} == "Kx=ECDH" ]] || [[ ${kx[i]} == "Kx=DH" ]] || [[ ${kx[i]} == "Kx=EDH" ]]; then
dhlen=$(read_dhbits_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$SHOW_SIGALGO" && [[ -r "$HOSTCERT" ]] && sigalg[i]="$(read_sigalg_from_file "$HOSTCERT")"
done
done
done
for (( i=0 ; i<nr_ciphers; i++ )); do
if "${ciphers_found[i]}" || ( "$SHOW_EACH_C" && ( "$using_sockets" || "${ossl_supported[i]}" ) ); then
neat_list "${normalized_hexcode[i]}" "${ciph[i]}" "${kx[i]}" "${enc[i]}" "${export2[i]}" "${ciphers_found[i]}"
available=""
if "$SHOW_EACH_C"; then
if ${ciphers_found[i]}; then
available="available"
pr_cyan "$available"
else
available="not a/v"
pr_deemphasize "$available"
fi
fi
outln "${sigalg[i]}"
fileout "cipher_${normalized_hexcode[i]}" "INFO" "$(neat_list "${normalized_hexcode[i]}" "${ciph[i]}" "${kx[i]}" "${enc[i]}" "${export2[i]}") $available"
fi
done
"$using_sockets" && HAS_DH_BITS="$has_dh_bits"
outln
[[ $sclient_success -ge 6 ]] && return 1
return 0
}
# test for all ciphers per protocol locally configured (w/o distinguishing whether they are good or bad)
# for the specified protocol, test for all ciphers locally configured (w/o distinguishing whether they
# are good or bad) and list them in order to encryption strength.
ciphers_by_strength() {
local proto="$1" proto_hex="$2" proto_text="$3"
local using_sockets="$4" wide="$5"
local ossl_ciphers_proto
local -i nr_ciphers nr_ossl_ciphers nr_nonossl_ciphers success
local n sslvers auth mac hexc sslv2_ciphers="" cipher
local -a hexcode normalized_hexcode ciph rfc_ciph kx enc export2
local -a hexcode2 ciph2 rfc_ciph2
local -i i bundle end_of_bundle bundle_size num_bundles
local -a ciphers_found ciphers_found2 sigalg ossl_supported index
local dhlen supported_sslv2_ciphers ciphers_to_test tls13_ciphers_to_test addcmd temp
local available
local id
local has_dh_bits="$HAS_DH_BITS"
# for local problem if it happens
"$wide" || out " "
if ! "$using_sockets" && ! locally_supported "$proto"; then
pr_local_problem "Your $OPENSSL does not support $proto"
"$wide" && outln
return 0
fi
if [[ $(has_server_protocol "${proto:1}") -eq 1 ]]; then
"$wide" && outln " - "
return 0
fi
# get a list of all the cipher suites to test
nr_ciphers=0
if "$using_sockets" || [[ $OSSL_VER_MAJOR -lt 1 ]]; then
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
hexc="${TLS_CIPHER_HEXCODE[i]}"
ciph[nr_ciphers]="${TLS_CIPHER_OSSL_NAME[i]}"
rfc_ciph[nr_ciphers]="${TLS_CIPHER_RFC_NAME[i]}"
kx[nr_ciphers]="${TLS_CIPHER_KX[i]}"
enc[nr_ciphers]="${TLS_CIPHER_ENC[i]}"
export2[nr_ciphers]="${TLS_CIPHER_EXPORT[i]}"
ciphers_found[nr_ciphers]=false
sigalg[nr_ciphers]=""
ossl_supported[nr_ciphers]=${TLS_CIPHER_OSSL_SUPPORTED[i]}
if "$using_sockets" && "$wide" && ! "$has_dh_bits" && \
( [[ ${kx[nr_ciphers]} == "Kx=ECDH" ]] || [[ ${kx[nr_ciphers]} == "Kx=DH" ]] || [[ ${kx[nr_ciphers]} == "Kx=EDH" ]] ); then
ossl_supported[nr_ciphers]=false
fi
if [[ ${#hexc} -eq 9 ]]; then
hexcode[nr_ciphers]="${hexc:2:2},${hexc:7:2}"
if [[ "${hexc:2:2}" == 00 ]]; then
normalized_hexcode[nr_ciphers]="x${hexc:7:2}"
else
normalized_hexcode[nr_ciphers]="x${hexc:2:2}${hexc:7:2}"
fi
else
hexc="$(tolower "$hexc")"
hexcode[nr_ciphers]="${hexc:2:2},${hexc:7:2},${hexc:12:2}"
normalized_hexcode[nr_ciphers]="x${hexc:2:2}${hexc:7:2}${hexc:12:2}"
fi
if ( "$using_sockets" || "${TLS_CIPHER_OSSL_SUPPORTED[i]}" ); then
if [[ ${#hexc} -eq 9 ]] && [[ "$proto" != -ssl2 ]]; then
if [[ "$proto" == -tls1_3 ]]; then
[[ "${hexc:2:2}" == 13 ]] && nr_ciphers+=1
elif [[ "$proto" == -tls1_2 ]]; then
[[ "${hexc:2:2}" != 13 ]] && nr_ciphers+=1
elif [[ ! "${TLS_CIPHER_RFC_NAME[i]}" =~ SHA256 ]] && [[ ! "${TLS_CIPHER_RFC_NAME[i]}" =~ SHA384 ]] && \
[[ "${TLS_CIPHER_RFC_NAME[i]}" != *_CCM ]] && [[ "${TLS_CIPHER_RFC_NAME[i]}" != *_CCM_8 ]]; then
nr_ciphers+=1
fi
elif [[ ${#hexc} -eq 14 ]] && [[ "$proto" == -ssl2 ]]; then
sslv2_ciphers+=", ${hexcode[nr_ciphers]}"
nr_ciphers+=1
fi
fi
done
else # no sockets, openssl!
# The OpenSSL ciphers function, prior to version 1.1.0, could only understand -ssl2, -ssl3, and -tls1.
if [[ "$OSSL_NAME" =~ LibreSSL ]]; then
ossl_ciphers_proto=""
elif [[ $proto == -ssl2 ]] || [[ $proto == -ssl3 ]] || \
[[ $OSSL_VER_MAJOR.$OSSL_VER_MINOR == 1.1.0* ]] || [[ $OSSL_VER_MAJOR.$OSSL_VER_MINOR == 1.1.1* ]] || \
[[ $OSSL_VER_MAJOR.$OSSL_VER_MINOR == 3.0.0* ]]; then
ossl_ciphers_proto="$proto"
else
ossl_ciphers_proto="-tls1"
fi
while read hexc n ciph[nr_ciphers] sslvers kx[nr_ciphers] auth enc[nr_ciphers] mac export2[nr_ciphers]; do
if [[ "$proto" == -tls1_3 ]]; then
[[ "${ciph[nr_ciphers]}" == TLS13* ]] || [[ "${ciph[nr_ciphers]}" == TLS_* ]] || [[ "${ciph[nr_ciphers]}" == AEAD-* ]] || continue
elif [[ "$proto" == -tls1_2 ]]; then
if [[ "${ciph[nr_ciphers]}" == TLS13* ]] || [[ "${ciph[nr_ciphers]}" == TLS_* ]] || [[ "${ciph[nr_ciphers]}" == AEAD-* ]]; then
continue
fi
elif [[ "${ciph[nr_ciphers]}" == *-SHA256 ]] || [[ "${ciph[nr_ciphers]}" == *-SHA384 ]] || \
[[ "${ciph[nr_ciphers]}" == *-CCM ]] || [[ "${ciph[nr_ciphers]}" == *-CCM8 ]] || \
[[ "${ciph[nr_ciphers]}" =~ CHACHA20-POLY1305 ]]; then
continue
fi
ciphers_found[nr_ciphers]=false
normalized_hexcode[nr_ciphers]="$(normalize_ciphercode "$hexc")"
sigalg[nr_ciphers]=""
ossl_supported[nr_ciphers]=true
nr_ciphers+=1
done < <(actually_supported_osslciphers 'ALL:COMPLEMENTOFALL:@STRENGTH' 'ALL' "$ossl_ciphers_proto -V")
fi
if [[ $proto == -ssl2 ]]; then
if "$using_sockets"; then
sslv2_sockets "${sslv2_ciphers:2}" "true"
if [[ $? -eq 3 ]] ; then
add_proto_offered ssl2 yes
if [[ "$V2_HELLO_CIPHERSPEC_LENGTH" -ne 0 ]]; then
supported_sslv2_ciphers="$(grep "Supported cipher: " "$TEMPDIR/$NODEIP.parse_sslv2_serverhello.txt")"
"$wide" && "$SHOW_SIGALGO" && s="$(read_sigalg_from_file "$HOSTCERT")"
for (( i=0 ; i<nr_ciphers; i++ )); do
if [[ "$supported_sslv2_ciphers" =~ ${normalized_hexcode[i]} ]]; then
ciphers_found[i]=true
"$wide" && "$SHOW_SIGALGO" && sigalg[i]="$s"
fi
done
else
outln " protocol supported with no cipher "
fi
else
add_proto_offered ssl2 no
"$wide" && outln " - "
fi
else
$OPENSSL s_client $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY -ssl2 >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? "$TMPFILE"
if [[ $? -eq 0 ]]; then
add_proto_offered ssl2 yes
supported_sslv2_ciphers="$(grep -A 4 "Ciphers common between both SSL endpoints:" $TMPFILE)"
"$wide" && "$SHOW_SIGALGO" && s="$(read_sigalg_from_file "$TMPFILE")"
for (( i=0 ; i<nr_ciphers; i++ )); do
if [[ "$supported_sslv2_ciphers" =~ ${ciph[i]} ]]; then
ciphers_found[i]=true
"$wide" && "$SHOW_SIGALGO" && sigalg[i]="$s"
fi
done
else
add_proto_offered ssl2 no
"$wide" && outln " - "
fi
fi
else # no SSLv2
nr_ossl_ciphers=0
if ( "$HAS_SSL3" || [[ $proto != -ssl3 ]] ) && ( "$HAS_TLS13" || [[ $proto != -tls1_3 ]] ); then
for (( i=0; i < nr_ciphers; i++ )); do
if "${ossl_supported[i]}"; then
ciphers_found2[nr_ossl_ciphers]=false
ciph2[nr_ossl_ciphers]="${ciph[i]}"
index[nr_ossl_ciphers]=$i
nr_ossl_ciphers+=1
fi
done
fi
if [[ $nr_ossl_ciphers -eq 0 ]]; then
num_bundles=0
else
# Some servers can't handle a handshake with >= 128 ciphers. So,
# test cipher suites in bundles of 128 or less.
num_bundles=$nr_ossl_ciphers/128
[[ $((nr_ossl_ciphers%128)) -ne 0 ]] && num_bundles+=1
bundle_size=$nr_ossl_ciphers/$num_bundles
[[ $((nr_ossl_ciphers%num_bundles)) -ne 0 ]] && bundle_size+=1
fi
for (( bundle=0; bundle < num_bundles; bundle++ )); do
end_of_bundle=$(( (bundle+1)*bundle_size ))
[[ $end_of_bundle -gt $nr_ossl_ciphers ]] && end_of_bundle=$nr_ossl_ciphers
for (( success=0; success==0 ; 1 )); do
ciphers_to_test=""
tls13_ciphers_to_test=""
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
if ! "${ciphers_found2[i]}"; then
if [[ "$proto" == -tls1_3 ]]; then
tls13_ciphers_to_test+=":${ciph2[i]}"
else
ciphers_to_test+=":${ciph2[i]}"
fi
fi
done
success=1
if [[ -n "$ciphers_to_test" ]] || [[ -n "$tls13_ciphers_to_test" ]]; then
$OPENSSL s_client $(s_client_options "-cipher "\'${ciphers_to_test:1}\'" -ciphersuites "\'${tls13_ciphers_to_test:1}\'" $proto $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? "$TMPFILE"
if [[ $? -eq 0 ]]; then
cipher=$(get_cipher $TMPFILE)
if [[ -n "$cipher" ]]; then
success=0
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
[[ "$cipher" == "${ciph2[i]}" ]] && ciphers_found2[i]=true && break
done
i=${index[i]}
ciphers_found[i]=true
"$wide" && [[ "$proto" == -tls1_3 ]] && kx[i]="$(read_dhtype_from_file $TMPFILE)"
if "$wide" && ( [[ ${kx[i]} == Kx=ECDH ]] || [[ ${kx[i]} == Kx=DH ]] || [[ ${kx[i]} == Kx=EDH ]] ); then
dhlen=$(read_dhbits_from_file "$TMPFILE" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$wide" && "$SHOW_SIGALGO" && grep -q "\-\-\-\-\-BEGIN CERTIFICATE\-\-\-\-\-" $TMPFILE && \
sigalg[i]="$(read_sigalg_from_file "$TMPFILE")"
fi
fi
fi
done
done
if "$using_sockets"; then
nr_nonossl_ciphers=0
for (( i=0; i < nr_ciphers; i++ )); do
if ! "${ciphers_found[i]}"; then
ciphers_found2[nr_nonossl_ciphers]=false
hexcode2[nr_nonossl_ciphers]="${hexcode[i]}"
rfc_ciph2[nr_nonossl_ciphers]="${rfc_ciph[i]}"
index[nr_nonossl_ciphers]=$i
nr_nonossl_ciphers+=1
fi
done
fi
if [[ $nr_nonossl_ciphers -eq 0 ]]; then
num_bundles=0
else
# Some servers can't handle a handshake with >= 128 ciphers. So,
# test cipher suites in bundles of 128 or less.
num_bundles=$nr_nonossl_ciphers/128
[[ $((nr_nonossl_ciphers%128)) -ne 0 ]] && num_bundles+=1
bundle_size=$nr_nonossl_ciphers/$num_bundles
[[ $((nr_nonossl_ciphers%num_bundles)) -ne 0 ]] && bundle_size+=1
fi
for (( bundle=0; bundle < num_bundles; bundle++ )); do
end_of_bundle=$(( (bundle+1)*bundle_size ))
[[ $end_of_bundle -gt $nr_nonossl_ciphers ]] && end_of_bundle=$nr_nonossl_ciphers
for (( success=0; success==0 ; 1 )); do
ciphers_to_test=""
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
! "${ciphers_found2[i]}" && ciphers_to_test+=", ${hexcode2[i]}"
done
success=1
if [[ -n "$ciphers_to_test" ]]; then
if "$wide" && "$SHOW_SIGALGO"; then
tls_sockets "$proto_hex" "${ciphers_to_test:2}, 00,ff" "all"
else
tls_sockets "$proto_hex" "${ciphers_to_test:2}, 00,ff" "ephemeralkey"
fi
if [[ $? -eq 0 ]]; then
success=0
cipher=$(get_cipher "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
[[ "$cipher" == "${rfc_ciph2[i]}" ]] && ciphers_found2[i]=true && break
done
i=${index[i]}
ciphers_found[i]=true
"$wide" && [[ "$proto" == -tls1_3 ]] && kx[i]="$(read_dhtype_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")"
if "$wide" && ( [[ ${kx[i]} == Kx=ECDH ]] || [[ ${kx[i]} == Kx=DH ]] || [[ ${kx[i]} == Kx=EDH ]] ); then
dhlen=$(read_dhbits_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$wide" && "$SHOW_SIGALGO" && [[ -r "$HOSTCERT" ]] && \
sigalg[i]="$(read_sigalg_from_file "$HOSTCERT")"
fi
fi
done
done
fi
cipher=""
for (( i=0 ; i<nr_ciphers; i++ )); do
if "${ciphers_found[i]}"; then
if [[ "$DISPLAY_CIPHERNAMES" =~ rfc ]] && [[ "${rfc_ciph[i]}" != - ]]; then
cipher+="${rfc_ciph[i]} "
else
cipher+="${ciph[i]} "
fi
fi
if "$wide" && ( "${ciphers_found[i]}" || "$SHOW_EACH_C" ); then
normalized_hexcode[i]="$(tolower "${normalized_hexcode[i]}")"
neat_list "${normalized_hexcode[i]}" "${ciph[i]}" "${kx[i]}" "${enc[i]}" "${export2[i]}" "${ciphers_found[i]}"
available=""
if "$SHOW_EACH_C"; then
if "${ciphers_found[i]}"; then
available="available"
pr_cyan "$available"
else
available="not a/v"
pr_deemphasize "$available"
fi
fi
outln "${sigalg[i]}"
id="cipher$proto"
id+="_${normalized_hexcode[i]}"
fileout "$id" "$(get_cipher_quality_severity "${ciph[i]}")" "$proto_text $(neat_list "${normalized_hexcode[i]}" "${ciph[i]}" "${kx[i]}" "${enc[i]}" "${export2[i]}") $available"
fi
done
if [[ $proto != -ssl2 ]]; then
# We handled SSLv2 above already
if [[ -n "$cipher" ]]; then
add_proto_offered $proto yes
else
add_proto_offered $proto no
"$wide" && outln " -"
fi
fi
if ! "$wide" && [[ -n "$cipher" ]]; then
outln
out "$(printf " %-10s " "$proto_text: ")"
if [[ "$COLOR" -le 2 ]]; then
out "$(out_row_aligned_max_width "$cipher" " " $TERM_WIDTH)"
else
out_row_aligned_max_width_by_entry "$cipher" " " $TERM_WIDTH pr_cipher_quality
fi
fi
[[ -n "$cipher" ]] && fileout "supportedciphers_${proto_text//./_}" "INFO" "$cipher"
"$using_sockets" && HAS_DH_BITS="$has_dh_bits"
tmpfile_handle ${FUNCNAME[0]}${proto}.txt
return 0
#FIXME: no error condition
}
# Test for all ciphers per protocol locally configured (w/o distinguishing whether they are good or bad)
#
run_cipher_per_proto() {
local proto proto_hex proto_text
local using_sockets=true
"$SSL_NATIVE" && using_sockets=false
"$FAST" && using_sockets=false
[[ $TLS_NR_CIPHERS == 0 ]] && using_sockets=false
outln
if "$using_sockets"; then
pr_headlineln " Testing ciphers per protocol via OpenSSL plus sockets against the server, ordered by encryption strength "
else
pr_headlineln " Testing all locally available ciphers per protocol against the server, ordered by encryption strength "
[[ $TLS_NR_CIPHERS == 0 ]] && ! "$SSL_NATIVE" && ! "$FAST" && pr_warning " Cipher mapping not available, doing a fallback to openssl"
outln
if ! "$HAS_DH_BITS"; then
[[ $TLS_NR_CIPHERS == 0 ]] && ! "$SSL_NATIVE" && ! "$FAST" && out "."
prln_warning " (Your $OPENSSL cannot show DH/ECDH bits)"
fi
fi
outln
neat_header
while read proto proto_hex proto_text; do
prln_underline "$(printf -- "%b" "$proto_text")"
ciphers_by_strength "$proto" "$proto_hex" "$proto_text" "$using_sockets" "true"
done <<< "$(tm_out " -ssl2 22 SSLv2\n -ssl3 00 SSLv3\n -tls1 01 TLS 1\n -tls1_1 02 TLS 1.1\n -tls1_2 03 TLS 1.2\n -tls1_3 04 TLS 1.3")"
return 0
#FIXME: no error condition
}
# arg1 is an ASCII-HEX encoded SSLv3 or TLS ClientHello.
# arg2: new key_share extension (only present to response to HelloRetryRequest)
# arg3: cookie extension (if needed for response to HelloRetryRequest)
#
# This function may be used to either modify a ClientHello for client simulation
# or to create a second ClientHello in response to a HelloRetryRequest.
# If arg2 is present, then this is a response to a HelloRetryRequest, so the
# function replaces the key_share extension with arg2 and adds the cookie
# extension, if present.
# If arg2 is not present, then this is an initial ClientHello for client simulation.
# In this case, if the provided ClientHello contains a server name extension,
# then either:
# 1) replace it with one corresponding to $SNI; or
# 2) remove it, if $SNI is empty
modify_clienthello() {
local tls_handshake_ascii="$1"
local new_key_share="$2" cookie="$3"
local -i len offset tls_handshake_ascii_len len_all len_clienthello
local -i len_extensions len_extension
local tls_content_type tls_version_reclayer handshake_msg_type tls_clientversion
local tls_random tls_sid tls_cipher_suites tls_compression_methods
local tls_extensions="" extension_type len_extensions_hex
local len_servername hexdump_format_str servername_hexstr
local len_servername_hex len_sni_listlen len_sni_ext
local tls_client_hello len_clienthello_hex tls_handshake_ascii_len_hex
local sni_extension_found=false
tls_handshake_ascii_len=${#tls_handshake_ascii}
tls_content_type="${tls_handshake_ascii:0:2}"
tls_version_reclayer="${tls_handshake_ascii:2:4}"
len_all=$(hex2dec "${tls_handshake_ascii:6:4}")
handshake_msg_type="${tls_handshake_ascii:10:2}"
len_clienthello=$(hex2dec "${tls_handshake_ascii:12:6}")
tls_clientversion="${tls_handshake_ascii:18:4}"
tls_random="${tls_handshake_ascii:22:64}"
len=2*$(hex2dec "${tls_handshake_ascii:86:2}")+2
tls_sid="${tls_handshake_ascii:86:$len}"
offset=86+$len
len=2*$(hex2dec "${tls_handshake_ascii:$offset:4}")+4
tls_cipher_suites="${tls_handshake_ascii:$offset:$len}"
offset=$offset+$len
len=2*$(hex2dec "${tls_handshake_ascii:$offset:2}")+2
tls_compression_methods="${tls_handshake_ascii:$offset:$len}"
offset=$offset+$len
if [[ $offset -ge $tls_handshake_ascii_len ]]; then
# No extensions
tm_out "$tls_handshake_ascii"
return 0
fi
len_extensions=2*$(hex2dec "${tls_handshake_ascii:$offset:4}")
offset+=4
for (( 1; offset < tls_handshake_ascii_len; 1 )); do
extension_type="${tls_handshake_ascii:$offset:4}"
offset+=4
len_extension=2*$(hex2dec "${tls_handshake_ascii:$offset:4}")
if [[ "$extension_type" == 0000 ]] && [[ -z "$new_key_share" ]]; then
# If this is an initial ClientHello, then either remove
# the SNI extension or replace it with the correct server name.
sni_extension_found=true
if [[ -n "$SNI" ]]; then
servername=${XMPP_HOST:-${NODE}}
# Create a server name extension that corresponds to $SNI
len_servername=${#servername}
hexdump_format_str="$len_servername/1 \"%02x\""
servername_hexstr=$(printf $servername | hexdump -v -e "${hexdump_format_str}")
# convert lengths we need to fill in from dec to hex:
len_servername_hex=$(printf "%02x\n" $len_servername)
len_sni_listlen=$(printf "%02x\n" $((len_servername+3)))
len_sni_ext=$(printf "%02x\n" $((len_servername+5)))
tls_extensions+="000000${len_sni_ext}00${len_sni_listlen}0000${len_servername_hex}${servername_hexstr}"
fi
offset+=$len_extension+4
elif [[ "$extension_type" != 00$KEY_SHARE_EXTN_NR ]] || [[ -z "$new_key_share" ]]; then
# If this is in response to a HelloRetryRequest, then do
# not copy over the old key_share extension, but
# all other extensions should be copied into the new ClientHello.
offset=$offset-4
len=$len_extension+8
tls_extensions+="${tls_handshake_ascii:$offset:$len}"
offset+=$len
else
# This is the key_share extension, and the modified ClientHello
# is being created in response to a HelloRetryRequest. Replace
# the existing key_share extension with the new one.
tls_extensions+="$new_key_share"
offset+=$len_extension+4
fi
done
tls_extensions+="$cookie"
if ! "$sni_extension_found" && [[ -z "$new_key_share" ]]; then
tm_out "$tls_handshake_ascii"
return 0
fi
len_extensions=${#tls_extensions}/2
len_extensions_hex=$(printf "%02x\n" $len_extensions)
len2twobytes "$len_extensions_hex"
tls_extensions="${LEN_STR:0:2}${LEN_STR:4:2}${tls_extensions}"
tls_client_hello="${tls_clientversion}${tls_random}${tls_sid}${tls_cipher_suites}${tls_compression_methods}${tls_extensions}"
len_clienthello=${#tls_client_hello}/2
len_clienthello_hex=$(printf "%02x\n" $len_clienthello)
len2twobytes "$len_clienthello_hex"
tls_handshake_ascii="${handshake_msg_type}00${LEN_STR:0:2}${LEN_STR:4:2}${tls_client_hello}"
tls_handshake_ascii_len=${#tls_handshake_ascii}/2
tls_handshake_ascii_len_hex=$(printf "%02x\n" $tls_handshake_ascii_len)
len2twobytes "$tls_handshake_ascii_len_hex"
tls_handshake_ascii="${tls_content_type}${tls_version_reclayer}${LEN_STR:0:2}${LEN_STR:4:2}${tls_handshake_ascii}"
tm_out "$tls_handshake_ascii"
return 0
}
client_simulation_sockets() {
local -i len i ret=0
local -i save=0
local lines clienthello data=""
local cipher_list_2send=""
local sock_reply_file2 sock_reply_file3
local tls_hello_ascii next_packet hello_done=0
local -i sid_len offset1 offset2
if [[ "${1:0:4}" == 1603 ]]; then
clienthello="$(modify_clienthello "$1")"
TLS_CLIENT_HELLO="${clienthello:10}"
else
clienthello="$1"
TLS_CLIENT_HELLO=""
fi
len=${#clienthello}
for (( i=0; i < len; i+=2 )); do
data+=", ${clienthello:i:2}"
done
# same as above. If a CIPHER_SUITES string was provided, then check that it is in the ServerHello
# this appeared 1st in yassl + MySQL (https://github.com/drwetter/testssl.sh/pull/784) but adds
# robustness to the implementation
# see also https://github.com/drwetter/testssl.sh/pull/797
if [[ "${1:0:4}" == 1603 ]]; then
# Extact list of cipher suites from SSLv3 or later ClientHello
sid_len=4*$(hex2dec "${data:174:2}")
offset1=178+$sid_len
offset2=182+$sid_len
len=4*$(hex2dec "${data:offset1:2}${data:offset2:2}")-2
offset1=186+$sid_len
code2network "$(tolower "${data:offset1:len}")" # convert CIPHER_SUITES to a "standardized" format
else
# Extact list of cipher suites from SSLv2 ClientHello
len=2*$(hex2dec "${clienthello:12:2}")
for (( i=22; i < 22+len; i+=6 )); do
offset1=$i+2
offset2=$i+4
[[ "${clienthello:i:2}" == 00 ]] && cipher_list_2send+=", ${clienthello:offset1:2},${clienthello:offset2:2}"
done
code2network "$(tolower "${cipher_list_2send:2}")" # convert CIPHER_SUITES to a "standardized" format
fi
cipher_list_2send="$NW_STR"
fd_socket 5 || return 6
debugme echo -e "\nsending client hello... "
socksend_clienthello "${data}"
sleep $USLEEP_SND
sockread_serverhello 32768
tls_hello_ascii=$(hexdump -v -e '16/1 "%02X"' "$SOCK_REPLY_FILE")
tls_hello_ascii="${tls_hello_ascii%%[!0-9A-F]*}"
# Check if the response is a HelloRetryRequest.
resend_if_hello_retry_request "$clienthello" "$tls_hello_ascii"
ret=$?
if [[ $ret -eq 2 ]]; then
tls_hello_ascii=$(hexdump -v -e '16/1 "%02X"' "$SOCK_REPLY_FILE")
tls_hello_ascii="${tls_hello_ascii%%[!0-9A-F]*}"
elif [[ $ret -eq 1 ]] || [[ $ret -eq 6 ]]; then
close_socket 5
TMPFILE=$SOCK_REPLY_FILE
tmpfile_handle ${FUNCNAME[0]}.dd
return $ret
fi
if [[ "${tls_hello_ascii:0:1}" != "8" ]]; then
check_tls_serverhellodone "$tls_hello_ascii" "ephemeralkey"
hello_done=$?
fi
for(( 1 ; hello_done==1; 1 )); do
if [[ $DEBUG -ge 1 ]]; then
sock_reply_file2=${SOCK_REPLY_FILE}.2
mv "$SOCK_REPLY_FILE" "$sock_reply_file2"
fi
debugme echo -n "requesting more server hello data... "
socksend "" $USLEEP_SND
sockread_serverhello 32768
next_packet=$(hexdump -v -e '16/1 "%02X"' "$SOCK_REPLY_FILE")
next_packet="${next_packet%%[!0-9A-F]*}"
if [[ ${#next_packet} -eq 0 ]]; then
# This shouldn't be necessary. However, it protects against
# getting into an infinite loop if the server has nothing
# left to send and check_tls_serverhellodone doesn't
# correctly catch it.
[[ $DEBUG -ge 1 ]] && mv "$sock_reply_file2" "$SOCK_REPLY_FILE"
hello_done=0
else
tls_hello_ascii+="$next_packet"
if [[ $DEBUG -ge 1 ]]; then
sock_reply_file3=${SOCK_REPLY_FILE}.3
mv "$SOCK_REPLY_FILE" "$sock_reply_file3" #FIXME: we moved that already
mv "$sock_reply_file2" "$SOCK_REPLY_FILE"
cat "$sock_reply_file3" >> "$SOCK_REPLY_FILE"
rm "$sock_reply_file3"
fi
check_tls_serverhellodone "$tls_hello_ascii" "ephemeralkey"
hello_done=$?
fi
done
debugme echo "reading server hello..."
if [[ "$DEBUG" -ge 4 ]]; then
hexdump -C $SOCK_REPLY_FILE | head -6
echo
fi
if [[ "${tls_hello_ascii:0:1}" == 8 ]]; then
parse_sslv2_serverhello "$SOCK_REPLY_FILE" "false"
if [[ $? -eq 3 ]] && [[ "$V2_HELLO_CIPHERSPEC_LENGTH" -ne 0 ]]; then
echo "Protocol : SSLv2" > "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt"
DETECTED_TLS_VERSION="0200"
ret=0
else
ret=1
fi
else
parse_tls_serverhello "$tls_hello_ascii" "ephemeralkey" "$cipher_list_2send"
save=$?
if [[ $save -eq 0 ]]; then
send_close_notify "$DETECTED_TLS_VERSION"
fi
if [[ $DEBUG -ge 2 ]]; then
# see https://secure.wand.net.nz/trac/libprotoident/wiki/SSL
lines=$(count_lines "$(hexdump -C "$SOCK_REPLY_FILE" 2>$ERRFILE)")
tm_out " ($lines lines returned) "
fi
# determine the return value for higher level, so that they can tell what the result is
if [[ $save -eq 1 ]] || [[ $lines -eq 1 ]]; then
ret=1 # NOT available
else
ret=0
fi
debugme tmln_out
fi
close_socket 5
TMPFILE=$SOCK_REPLY_FILE
tmpfile_handle ${FUNCNAME[0]}.dd
return $ret
}
run_client_simulation() {
# Runs browser simulations. Browser capabilities gathered from:
# https://www.ssllabs.com/ssltest/clients.html on 10 jan 2016
local names=()
local short=()
local protos=()
local ch_ciphers=()
local ciphersuites=()
local tlsvers=()
local ch_sni=()
local warning=()
local handshakebytes=()
local lowest_protocol=()
local highest_protocol=()
local service=()
local minDhBits=()
local maxDhBits=()
local minRsaBits=()
local maxRsaBits=()
local minEcdsaBits=()
local curves=()
local requiresSha2=()
local current=()
local i=0
local name tls proto cipher temp what_dh bits curve supported_curves
local has_dh_bits using_sockets=true
local client_service
local options
local -i ret=0
local jsonID="clientsimulation"
local client_service=""
# source the external file
. "$TESTSSL_INSTALL_DIR/etc/client-simulation.txt" 2>/dev/null
if [[ $? -ne 0 ]]; then
prln_local_problem "couldn't find client simulation data in $TESTSSL_INSTALL_DIR/etc/client-simulation.txt"
return 1
fi
"$SSL_NATIVE" && using_sockets=false
if [[ $SERVICE != "" ]]; then
client_service="$SERVICE"
elif [[ -n "$STARTTLS_PROTOCOL" ]]; then
# Can we take the service from STARTTLS?
client_service=$(toupper "${STARTTLS_PROTOCOL%s}") # strip trailing 's' in ftp(s), smtp(s), pop3(s), etc
elif "$ASSUME_HTTP"; then
client_service="HTTP"
else
outln "Could not determine the protocol, only simulating generic clients."
fi
outln
pr_headline " Running client simulations "
[[ "$client_service" == HTTP ]] && pr_headline "($client_service) "
if "$using_sockets"; then
pr_headlineln "via sockets "
else
pr_headline "via openssl "
prln_warning " -- pls note \"--ssl-native\" will return some false results"
fileout "$jsonID" "WARN" "You shouldn't run this with \"--ssl-native\" as you will get false results"
ret=1
fi
outln
debugme echo
if [[ "$DISPLAY_CIPHERNAMES" =~ openssl ]]; then
out " Browser Protocol Cipher Suite Name (OpenSSL) "
( "$using_sockets" || "$HAS_DH_BITS") && out "Forward Secrecy"
outln
out "--------------------------------------------------------------------------"
else
out " Browser Protocol Cipher Suite Name (IANA/RFC) "
( "$using_sockets" || "$HAS_DH_BITS") && out "Forward Secrecy"
outln
out "------------------------------------------------------------------------------------------"
fi
( "$using_sockets" || "$HAS_DH_BITS") && out "----------------------"
outln
if ! "$using_sockets"; then
# We can't use the connectivity checker here as of now the openssl reply is always empty (reason??)
save_max_ossl_fail=$MAX_OSSL_FAIL
nr_ossl_fail=$NR_OSSL_FAIL
MAX_OSSL_FAIL=100
fi
for name in "${short[@]}"; do
if "${current[i]}" || "$ALL_CLIENTS" ; then
# for ANY we test this service or if the service we determined from STARTTLS matches
if [[ "${service[i]}" == ANY ]] || [[ "${service[i]}" =~ $client_service ]]; then
out " $(printf -- "%-29s" "${names[i]}")"
if "$using_sockets" && [[ -n "${handshakebytes[i]}" ]]; then
client_simulation_sockets "${handshakebytes[i]}"
sclient_success=$?
if [[ $sclient_success -eq 0 ]]; then
if [[ "0x${DETECTED_TLS_VERSION}" -lt ${lowest_protocol[i]} ]] || \
[[ "0x${DETECTED_TLS_VERSION}" -gt ${highest_protocol[i]} ]]; then
sclient_success=1
fi
[[ $sclient_success -eq 0 ]] && cp "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" $TMPFILE >$ERRFILE
fi
else
if [[ -n "${curves[i]}" ]]; then
# "$OPENSSL s_client" will fail if the -curves option includes any unsupported curves.
supported_curves=""
for curve in $(colon_to_spaces "${curves[i]}"); do
# Attention! secp256r1 = prime256v1 and secp192r1 = prime192v1
# We need to map two curves here as otherwise handshakes will go wrong if "-curves" are supplied
# https://github.com/openssl/openssl/blob/master/apps/ecparam.c#L221 + ./ssl/t1_lib.c
[[ "$curve" =~ secp256r1 ]] && curve="${curve//secp256r1/prime256v1}"
[[ "$curve" =~ secp192r1 ]] && curve="${curve//secp192r1/prime192v1}"
[[ "$OSSL_SUPPORTED_CURVES" =~ " $curve " ]] && supported_curves+=":$curve"
done
curves[i]=""
[[ -n "$supported_curves" ]] && curves[i]="-curves ${supported_curves:1}"
fi
options="$(s_client_options "-cipher ${ch_ciphers[i]} -ciphersuites "\'${ciphersuites[i]}\'" ${curves[i]} ${protos[i]} $STARTTLS $BUGS $PROXY -connect $NODEIP:$PORT ${ch_sni[i]}")"
debugme echo "$OPENSSL s_client $options </dev/null"
$OPENSSL s_client $options </dev/null >$TMPFILE 2>$ERRFILE
sclient_connect_successful $? $TMPFILE
sclient_success=$?
fi
if [[ $sclient_success -eq 0 ]]; then
# If an ephemeral DH key was used, check that the number of bits is within range.
temp=$(awk -F': ' '/^Server Temp Key/ { print $2 }' "$TMPFILE") # extract line
what_dh="${temp%%,*}"
bits="${temp##*, }"
# formatting
curve="${temp#*, }"
if [[ "$curve" == $bits ]]; then
curve=""
else
curve="${curve%%,*}"
fi
bits="${bits/bits/}"
bits="${bits// /}"
if [[ "$what_dh" == X25519 ]] || [[ "$what_dh" == X448 ]]; then
curve="$what_dh"
what_dh="ECDH"
fi
if [[ "$what_dh" == DH ]]; then
[[ ${minDhBits[i]} -ne -1 ]] && [[ $bits -lt ${minDhBits[i]} ]] && sclient_success=1
[[ ${maxDhBits[i]} -ne -1 ]] && [[ $bits -gt ${maxDhBits[i]} ]] && sclient_success=1
fi
fi
if [[ $sclient_success -ne 0 ]]; then
outln "No connection"
fileout "${jsonID}-${short[i]}" "INFO" "No connection"
else
proto=$(get_protocol $TMPFILE)
# hack:
[[ "$proto" == TLSv1 ]] && proto="TLSv1.0"
[[ "$proto" == SSLv3 ]] && proto="SSLv3 "
if [[ "$proto" == TLSv1.2 ]] && ( ! "$using_sockets" || [[ -z "${handshakebytes[i]}" ]] ); then
# OpenSSL reports TLS1.2 even if the connection is TLS1.1 or TLS1.0. Need to figure out which one it is...
for tls in ${tlsvers[i]}; do
# If the handshake data includes TLS 1.3 we need to remove it, otherwise the
# simulation will fail with # 'Oops: openssl s_client connect problem'
# before/after trying another protocol. We only print a warning it in debug mode
# as otherwise we would need e.g. handle the curves in a similar fashion -- not
# to speak about ciphers
if [[ $tls =~ 1_3 ]] && ! "$HAS_TLS13"; then
debugme pr_local_problem "TLS 1.3 not supported, "
continue
fi
options="$(s_client_options "$tls -cipher ${ch_ciphers[i]} -ciphersuites "\'${ciphersuites[i]}\'" ${curves[i]} $STARTTLS $BUGS $PROXY -connect $NODEIP:$PORT ${ch_sni[i]}")"
debugme echo "$OPENSSL s_client $options </dev/null"
$OPENSSL s_client $options </dev/null >$TMPFILE 2>$ERRFILE
sclient_connect_successful $? $TMPFILE
sclient_success=$?
if [[ $sclient_success -eq 0 ]]; then
case "$tls" in
"-tls1_2") break ;;
"-tls1_1") proto="TLSv1.1"
break ;;
"-tls1") proto="TLSv1.0"
break ;;
esac
fi
done
fi
cipher=$(get_cipher $TMPFILE)
if [[ "$DISPLAY_CIPHERNAMES" =~ openssl ]] && ( [[ "$cipher" == TLS_* ]] || [[ "$cipher" == SSL_* ]] ); then
cipher="$(rfc2openssl "$cipher")"
[[ -z "$cipher" ]] && cipher=$(get_cipher $TMPFILE)
elif [[ "$DISPLAY_CIPHERNAMES" =~ rfc ]] && [[ "$cipher" != TLS_* ]] && [[ "$cipher" != SSL_* ]]; then
cipher="$(openssl2rfc "$cipher")"
[[ -z "$cipher" ]] && cipher=$(get_cipher $TMPFILE)
fi
out "$proto "
if [[ "$COLOR" -le 2 ]]; then
out "$cipher"
else
pr_cipher_quality "$cipher"
fi
if [[ "$DISPLAY_CIPHERNAMES" =~ openssl ]]; then
print_n_spaces "$((34-${#cipher}))"
else
print_n_spaces "$((50-${#cipher}))"
fi
if [[ -n "$what_dh" ]]; then
[[ -n "$curve" ]] && curve="($curve)"
if [[ "$what_dh" == ECDH ]]; then
pr_ecdh_quality "$bits" "$(printf -- "%-12s" "$bits bit $what_dh") $curve"
else
pr_dh_quality "$bits" "$(printf -- "%-12s" "$bits bit $what_dh") $curve"
fi
else
if "$HAS_DH_BITS" || ( "$using_sockets" && [[ -n "${handshakebytes[i]}" ]] ); then
out "No FS"
fi
fi
outln
if [[ -n "${warning[i]}" ]]; then
out " "
outln "${warning[i]}"
fi
fileout "${jsonID}-${short[i]}" "INFO" "$proto $cipher ${warning[i]}"
debugme cat $TMPFILE
fi
fi # correct service?
fi #current?
((i++))
done
if ! "$using_sockets"; then
# restore from above
MAX_OSSL_FAIL=$save_max_ossl_fail
NR_OSSL_FAIL=$nr_ossl_fail
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return $ret
}
# generic function whether $1 is supported by s_client ($2: string to display, currently nowhere being used)
#
locally_supported() {
[[ -n "$2" ]] && out "$2 "
if $OPENSSL s_client "$1" -connect invalid. 2>&1 | grep -aiq "unknown option"; then
prln_local_problem "$OPENSSL doesn't support \"s_client $1\""
return 7
fi
return 0
}
# The protocol check in run_protocols needs to be redone. The using_sockets part there kind of sucks.
# 1) we need to have a variable where the results are being stored so that every other test doesn't have to do this again
# --> we have that but certain information like "downgraded" are not being passed. That's not ok for run_protocols()/
# for all other functions we can use it
# 2) the code is old and one can do that way better
# We should do what's available and faster (openssl vs. sockets). Keep in mind that the socket reply for SSLv2 returns the number # of ciphers!
#
# arg1: -ssl2|-ssl3|-tls1|-tls1_1|-tls1_2|-tls1_3
#
run_prototest_openssl() {
local -i ret=0
local protos proto
# check whether the protocol being tested is supported by $OPENSSL
$OPENSSL s_client "$1" -connect invalid. 2>&1 | grep -aiq "unknown option" && return 7
case "$1" in
-ssl2) protos="-ssl2" ;;
-ssl3) protos="-ssl3" ;;
-tls1) protos="-no_tls1_2 -no_tls1_1 -no_ssl2"; "$HAS_TLS13" && protos+=" -no_tls1_3" ;;
-tls1_1) protos="-no_tls1_2 -no_ssl2"; "$HAS_TLS13" && protos+=" -no_tls1_3" ;;
-tls1_2) protos="-no_ssl2"; "$HAS_TLS13" && protos+=" -no_tls1_3" ;;
-tls1_3) protos="" ;;
esac
$OPENSSL s_client $(s_client_options "-state $protos $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>&1 </dev/null
sclient_connect_successful $? $TMPFILE
ret=$?
debugme grep -E "error|failure" $ERRFILE | grep -Eav "unable to get local|verify error"
if [[ $ret -ne 0 ]]; then
if grep -aq "no cipher list" $TMPFILE; then
ret=5 # <--- important indicator for SSL2 (maybe others, too)
else
# try again without $PROXY
$OPENSSL s_client $(s_client_options "-state $protos $STARTTLS $BUGS -connect $NODEIP:$PORT $SNI") >$TMPFILE 2>&1 </dev/null
sclient_connect_successful $? $TMPFILE
ret=$?
debugme grep -E "error|failure" $ERRFILE | grep -Eav "unable to get local|verify error"
grep -aq "no cipher list" $TMPFILE && ret=5 # <--- important indicator for SSL2 (maybe others, too)
fi
fi
if [[ $ret -eq 0 ]]; then
proto="$(get_protocol "$TMPFILE")"
proto=${proto/\./_}
proto=${proto/v/}
proto="-$(tolower $proto)"
[[ "$proto" != $1 ]] && ret=2
case "$proto" in
-ssl3) DETECTED_TLS_VERSION="0300" ;;
-tls1) DETECTED_TLS_VERSION="0301" ;;
-tls1_1) DETECTED_TLS_VERSION="0302" ;;
-tls1_2) DETECTED_TLS_VERSION="0303" ;;
-tls1_3) DETECTED_TLS_VERSION="0304" ;;
esac
fi
tmpfile_handle ${FUNCNAME[0]}$1.txt
return $ret
# 0: offered
# 1: not offered
# 2: downgraded
# 5: protocol ok, but no cipher
# 7: no local support
}
# Idempotent function to add SSL/TLS protocols. It should accelerate testing.
# PROTOS_OFFERED can be e.g. "ssl2:no ssl3:no tls1_2:yes" which means that
# SSLv2 and SSLv3 was tested but not available, TLS 1.2 was tested and available
# TLS 1.0 and TLS 1.2 not tested yet
#
# arg1: protocol
# arg2: available (yes) or not (no)
add_proto_offered() {
# the ":" is mandatory here (and @ other places), otherwise e.g. tls1 will match tls1_2
if [[ "$PROTOS_OFFERED" =~ $1: ]]; then
# we got that protcol already
:
else
PROTOS_OFFERED+="${1}:$2 "
fi
}
# function which checks whether SSLv2 - TLS 1.2 is being offered, see add_proto_offered()
# arg1: protocol string or hex code for TLS protocol
# echos: 0 if proto known being offered, 1: known not being offered, 2: we don't know yet whether proto is being offered
# return value is always zero
has_server_protocol() {
local proto
local proto_val_pair
case "$1" in
04) proto="tls1_3" ;;
03) proto="tls1_2" ;;
02) proto="tls1_1" ;;
01) proto="tls1" ;;
00) proto="ssl3" ;;
*) proto="$1" ;;
esac
if [[ "$PROTOS_OFFERED" =~ $proto: ]]; then
for proto_val_pair in $PROTOS_OFFERED; do
if [[ $proto_val_pair =~ $proto: ]]; then
if [[ ${proto_val_pair#*:} == yes ]]; then
echo 0
return 0
else
echo 1
return 0
fi
fi
done
else
# if empty echo 2, hinting to the caller to check at additional cost/connect
echo 2
return 0
fi
}
# the protocol check needs to be revamped. It sucks, see above
run_protocols() {
local using_sockets=true
local supported_no_ciph1="supported but couldn't detect a cipher (may need debugging)"
local supported_no_ciph2="supported but couldn't detect a cipher"
local latest_supported="" # version.major and version.minor of highest version supported by the server
local detected_version_string latest_supported_string
local key_share_extn_nr="$KEY_SHARE_EXTN_NR"
local lines nr_ciphers_detected
local tls13_ciphers_to_test=""
local i drafts_offered="" drafts_offered_str="" supported_versions debug_recomm=""
local tls12_detected_version
local -i ret=0 ret_val_ssl3 ret_val_tls1 ret_val_tls11 ret_val_tls12=0 ret_val_tls13=0
local offers_tls13=false
local jsonID="SSLv2"
outln; pr_headline " Testing protocols "
if "$SSL_NATIVE"; then
using_sockets=false
prln_underline "via native openssl"
else
using_sockets=true
if [[ -n "$STARTTLS" ]]; then
prln_underline "via sockets "
else
prln_underline "via sockets except NPN+ALPN "
fi
fi
outln
[[ "$DEBUG" -le 1 ]] && debug_recomm=", rerun with DEBUG>=2 or --ssl-native"
pr_bold " SSLv2 ";
if ! "$SSL_NATIVE"; then
sslv2_sockets
case $? in
6) # couldn't open socket
prln_fixme "couldn't open socket"
fileout "$jsonID" "WARN" "couldn't be tested, socket problem"
((ret++))
;;
7) # strange reply, couldn't convert the cipher spec length to a hex number
pr_cyan "strange v2 reply "
outln "$debug_recomm"
[[ $DEBUG -ge 3 ]] && hexdump -C "$TEMPDIR/$NODEIP.sslv2_sockets.dd" | head -1
fileout "$jsonID" "WARN" "received a strange SSLv2 reply (rerun with DEBUG>=2)"
;;
1) # no sslv2 server hello returned, like in openlitespeed which returns HTTP!
prln_svrty_best "not offered (OK)"
fileout "$jsonID" "OK" "not offered"
add_proto_offered ssl2 no
;;
0) # reset
prln_svrty_best "not offered (OK)"
fileout "$jsonID" "OK" "not offered"
add_proto_offered ssl2 no
;;
4) out "likely "; pr_svrty_best "not offered (OK), "
fileout "$jsonID" "OK" "likely not offered"
add_proto_offered ssl2 no
pr_warning "received 4xx/5xx after STARTTLS handshake"; outln "$debug_recomm"
fileout "$jsonID" "WARN" "received 4xx/5xx after STARTTLS handshake${debug_recomm}"
;;
3) lines=$(count_lines "$(hexdump -C "$TEMPDIR/$NODEIP.sslv2_sockets.dd" 2>/dev/null)")
[[ "$DEBUG" -ge 2 ]] && tm_out " ($lines lines) "
if [[ "$lines" -gt 1 ]]; then
nr_ciphers_detected=$((V2_HELLO_CIPHERSPEC_LENGTH / 3))
add_proto_offered ssl2 yes
set_grade_cap "F" "SSLv2 is offered"
if [[ 0 -eq "$nr_ciphers_detected" ]]; then
prln_svrty_high "supported but couldn't detect a cipher and vulnerable to CVE-2015-3197 ";
fileout "$jsonID" "HIGH" "offered, no cipher" "CVE-2015-3197" "CWE-310"
else
pr_svrty_critical "offered (NOT ok), also VULNERABLE to DROWN attack";
outln " -- $nr_ciphers_detected ciphers"
fileout "$jsonID" "CRITICAL" "vulnerable with $nr_ciphers_detected ciphers"
fi
fi
;;
*) pr_fixme "unexpected value around line $((LINENO))"; outln "$debug_recomm"
((ret++))
;;
esac
debugme tmln_out
else
run_prototest_openssl "-ssl2"
case $? in
0) prln_svrty_critical "offered (NOT ok)"
fileout "$jsonID" "CRITICAL" "offered"
add_proto_offered ssl2 yes
set_grade_cap "F" "SSLv2 is offered"
;;
1) prln_svrty_best "not offered (OK)"
fileout "$jsonID" "OK" "not offered"
add_proto_offered ssl2 no
;;
5) prln_svrty_high "CVE-2015-3197: $supported_no_ciph2";
fileout "$jsonID" "HIGH" "offered, no cipher" "CVE-2015-3197" "CWE-310"
add_proto_offered ssl2 yes
set_grade_cap "F" "SSLv2 is offered"
;;
7) prln_local_problem "$OPENSSL doesn't support \"s_client -ssl2\""
fileout "$jsonID" "INFO" "not tested due to lack of local support"
((ret++))
;;
esac
fi
pr_bold " SSLv3 ";
jsonID="SSLv3"
if [[ $(has_server_protocol ssl3) -eq 0 ]]; then
ret_val_ssl3=0
elif "$using_sockets"; then
tls_sockets "00" "$TLS_CIPHER"
ret_val_ssl3=$?
else
run_prototest_openssl "-ssl3"
ret_val_ssl3=$?
fi
case $ret_val_ssl3 in
0) prln_svrty_high "offered (NOT ok)"
fileout "$jsonID" "HIGH" "offered"
if "$using_sockets" || "$HAS_SSL3"; then
latest_supported="0300"
latest_supported_string="SSLv3"
fi
add_proto_offered ssl3 yes
set_grade_cap "B" "SSLv3 is offered"
;;
1) prln_svrty_best "not offered (OK)"
fileout "$jsonID" "OK" "not offered"
add_proto_offered ssl3 no
;;
2) if [[ "$DETECTED_TLS_VERSION" == 03* ]]; then
detected_version_string="TLSv1.$((0x$DETECTED_TLS_VERSION-0x0301))"
prln_svrty_critical "server responded with higher version number ($detected_version_string) than requested by client (NOT ok)"
fileout "$jsonID" "CRITICAL" "server responded with higher version number ($detected_version_string) than requested by client"
else
if [[ ${#DETECTED_TLS_VERSION} -eq 4 ]]; then
prln_svrty_critical "server responded with version number ${DETECTED_TLS_VERSION:0:2}.${DETECTED_TLS_VERSION:2:2} (NOT ok)"
fileout "$jsonID" "CRITICAL" "server responded with version number ${DETECTED_TLS_VERSION:0:2}.${DETECTED_TLS_VERSION:2:2}"
else
prln_svrty_medium "strange, server ${DETECTED_TLS_VERSION}"
fileout "$jsonID" "MEDIUM" "strange, server ${DETECTED_TLS_VERSION}"
((ret++))
fi
fi
;;
3) pr_svrty_best "not offered (OK), "
fileout "$jsonID" "OK" "not offered"
add_proto_offered ssl3 no
pr_warning "SSL downgraded to STARTTLS plaintext"; outln
fileout "$jsonID" "WARN" "SSL downgraded to STARTTLS plaintext"
;;
4) out "likely "; pr_svrty_best "not offered (OK), "
fileout "$jsonID" "OK" "not offered"
add_proto_offered ssl3 no
pr_warning "received 4xx/5xx after STARTTLS handshake"; outln "$debug_recomm"
fileout "$jsonID" "WARN" "received 4xx/5xx after STARTTLS handshake${debug_recomm}"
;;
5) pr_svrty_high "$supported_no_ciph1" # protocol detected but no cipher --> comes from run_prototest_openssl
fileout "$jsonID" "HIGH" "$supported_no_ciph1"
add_proto_offered ssl3 yes
set_grade_cap "B" "SSLv3 is offered"
;;
7) if "$using_sockets" ; then
# can only happen in debug mode
pr_warning "strange reply, maybe a client side problem with SSLv3"; outln "$debug_recomm"
else
prln_local_problem "$OPENSSL doesn't support \"s_client -ssl3\""
fileout "$jsonID" "WARN" "not tested due to lack of local support"
fi
;;
*) pr_fixme "unexpected value around line $((LINENO))"; outln "$debug_recomm"
((ret++))
;;
esac
pr_bold " TLS 1 ";
jsonID="TLS1"
if [[ $(has_server_protocol tls1) -eq 0 ]]; then
ret_val_tls1=0
elif "$using_sockets"; then
tls_sockets "01" "$TLS_CIPHER"
ret_val_tls1=$?
else
run_prototest_openssl "-tls1"
ret_val_tls1=$?
fi
case $ret_val_tls1 in
0) pr_svrty_low "offered" ; outln " (deprecated)"
fileout "$jsonID" "LOW" "offered (deprecated)"
latest_supported="0301"
latest_supported_string="TLSv1.0"
add_proto_offered tls1 yes
set_grade_cap "B" "TLS 1.0 offered"
;; # nothing wrong with it -- per se
1) out "not offered"
add_proto_offered tls1 no
if [[ -z $latest_supported ]]; then
outln
fileout "$jsonID" "INFO" "not offered" # neither good or bad
else
prln_svrty_critical " -- connection failed rather than downgrading to $latest_supported_string (NOT ok)"
fileout "$jsonID" "CRITICAL" "connection failed rather than downgrading to $latest_supported_string"
fi
;;
2) pr_svrty_medium "not offered"
add_proto_offered tls1 no
if [[ "$DETECTED_TLS_VERSION" == 0300 ]]; then
[[ $DEBUG -ge 1 ]] && tm_out " -- downgraded"
outln
fileout "$jsonID" "MEDIUM" "not offered, and downgraded to SSL"
elif [[ "$DETECTED_TLS_VERSION" == 03* ]]; then
detected_version_string="TLSv1.$((0x$DETECTED_TLS_VERSION-0x0301))"
prln_svrty_critical " -- server responded with higher version number ($detected_version_string) than requested by client"
fileout "$jsonID" "CRITICAL" "server responded with higher version number ($detected_version_string) than requested by client"
else
if [[ ${#DETECTED_TLS_VERSION} -eq 4 ]]; then
prln_svrty_critical "server responded with version number ${DETECTED_TLS_VERSION:0:2}.${DETECTED_TLS_VERSION:2:2} (NOT ok)"
fileout "$jsonID" "CRITICAL" "server responded with version number ${DETECTED_TLS_VERSION:0:2}.${DETECTED_TLS_VERSION:2:2}"
else
prln_svrty_medium " -- strange, server ${DETECTED_TLS_VERSION}"
fileout "$jsonID" "MEDIUM" "strange, server ${DETECTED_TLS_VERSION}"
fi
fi
;;
3) out "not offered, "
fileout "$jsonID" "OK" "not offered"
add_proto_offered tls1 no
pr_warning "TLS downgraded to STARTTLS plaintext"; outln
fileout "$jsonID" "WARN" "TLS downgraded to STARTTLS plaintext"
;;
4) out "likely not offered, "
fileout "$jsonID" "INFO" "likely not offered"
add_proto_offered tls1 no
pr_warning "received 4xx/5xx after STARTTLS handshake"; outln "$debug_recomm"
fileout "$jsonID" "WARN" "received 4xx/5xx after STARTTLS handshake${debug_recomm}"
;;
5) outln "$supported_no_ciph1" # protocol detected but no cipher --> comes from run_prototest_openssl
fileout "$jsonID" "INFO" "$supported_no_ciph1"
add_proto_offered tls1 yes
set_grade_cap "B" "TLS 1.0 offered"
;;
7) if "$using_sockets" ; then
# can only happen in debug mode
pr_warning "strange reply, maybe a client side problem with TLS 1.0"; outln "$debug_recomm"
else
prln_local_problem "$OPENSSL doesn't support \"s_client -tls1\""
fileout "$jsonID" "WARN" "not tested due to lack of local support"
fi
((ret++))
;;
*) pr_fixme "unexpected value around line $((LINENO))"; outln "$debug_recomm"
((ret++))
;;
esac
pr_bold " TLS 1.1 ";
jsonID="TLS1_1"
if [[ $(has_server_protocol tls1_1) -eq 0 ]]; then
ret_val_tls11=0
elif "$using_sockets"; then
tls_sockets "02" "$TLS_CIPHER"
ret_val_tls11=$?
else
run_prototest_openssl "-tls1_1"
ret_val_tls11=$?
fi
case $ret_val_tls11 in
0) pr_svrty_low "offered" ; outln " (deprecated)"
fileout "$jsonID" "LOW" "offered (deprecated)"
latest_supported="0302"
latest_supported_string="TLSv1.1"
add_proto_offered tls1_1 yes
set_grade_cap "B" "TLS 1.1 offered"
;; # nothing wrong with it
1) out "not offered"
add_proto_offered tls1_1 no
if [[ -z $latest_supported ]]; then
outln
fileout "$jsonID" "INFO" "not offered" # neither good or bad
else
prln_svrty_critical " -- connection failed rather than downgrading to $latest_supported_string"
fileout "$jsonID" "CRITICAL" "connection failed rather than downgrading to $latest_supported_string"
fi
;;
2) out "not offered"
add_proto_offered tls1_1 no
if [[ "$DETECTED_TLS_VERSION" == "$latest_supported" ]]; then
[[ $DEBUG -ge 1 ]] && tm_out " -- downgraded"
outln
fileout "$jsonID" "CRITICAL" "TLSv1.1 is not offered, and downgraded to a weaker protocol"
elif [[ "$DETECTED_TLS_VERSION" == 0300 ]] && [[ "$latest_supported" == 0301 ]]; then
prln_svrty_critical " -- server supports TLSv1.0, but downgraded to SSLv3 (NOT ok)"
fileout "$jsonID" "CRITICAL" "not offered, and downgraded to SSLv3 rather than TLSv1.0"
elif [[ "$DETECTED_TLS_VERSION" == 03* ]] && [[ 0x$DETECTED_TLS_VERSION -gt 0x0302 ]]; then
detected_version_string="TLSv1.$((0x$DETECTED_TLS_VERSION-0x0301))"
prln_svrty_critical " -- server responded with higher version number ($detected_version_string) than requested by client (NOT ok)"
fileout "$jsonID" "CRITICAL" "not offered, server responded with higher version number ($detected_version_string) than requested by client"
else
if [[ ${#DETECTED_TLS_VERSION} -eq 4 ]]; then
prln_svrty_critical "server responded with version number ${DETECTED_TLS_VERSION:0:2}.${DETECTED_TLS_VERSION:2:2} (NOT ok)"
fileout "$jsonID" "CRITICAL" "server responded with version number ${DETECTED_TLS_VERSION:0:2}.${DETECTED_TLS_VERSION:2:2}"
else
prln_svrty_medium " -- strange, server ${DETECTED_TLS_VERSION}"
fileout "$jsonID" "MEDIUM" "strange, server ${DETECTED_TLS_VERSION}"
fi
fi
;;
3) out "not offered, "
fileout "$jsonID" "OK" "not offered"
add_proto_offered tls1_1 no
pr_warning "TLS downgraded to STARTTLS plaintext"; outln
fileout "$jsonID" "WARN" "TLS downgraded to STARTTLS plaintext"
;;
4) out "likely not offered, "
fileout "$jsonID" "INFO" "not offered"
add_proto_offered tls1_1 no
pr_warning "received 4xx/5xx after STARTTLS handshake"; outln "$debug_recomm"
fileout "$jsonID" "WARN" "received 4xx/5xx after STARTTLS handshake${debug_recomm}"
;;
5) outln "$supported_no_ciph1" # protocol detected but no cipher --> comes from run_prototest_openssl
fileout "$jsonID" "INFO" "$supported_no_ciph1"
add_proto_offered tls1_1 yes
set_grade_cap "B" "TLS 1.1 offered"
;;
7) if "$using_sockets" ; then
# can only happen in debug mode
pr_warning "strange reply, maybe a client side problem with TLS 1.1"; outln "$debug_recomm"
else
prln_local_problem "$OPENSSL doesn't support \"s_client -tls1_1\""
fileout "$jsonID" "WARN" "not tested due to lack of local support"
fi
((ret++))
;;
*) pr_fixme "unexpected value around line $((LINENO))"; outln "$debug_recomm"
((ret++))
;;
esac
# Now, we are doing a basic/pre test for TLS 1.2 and 1.3 in order not to penalize servers (medium)
# running TLS 1.3 only when TLS 1.2 is not offered. 0 and 5 are the return codes for
# TLS 1.3 support (kind of, including deprecated pre-versions of TLS 1.3)
if [[ $(has_server_protocol tls1_2) -eq 0 ]]; then
ret_val_tls12=0
elif "$using_sockets"; then
tls_sockets "03" "$TLS12_CIPHER"
ret_val_tls12=$?
tls12_detected_version="$DETECTED_TLS_VERSION"
else
run_prototest_openssl "-tls1_2"
ret_val_tls12=$?
tls12_detected_version="$DETECTED_TLS_VERSION"
fi
if [[ $(has_server_protocol tls1_3) -eq 0 ]]; then
ret_val_tls13=0
elif "$using_sockets"; then
# Need to ensure that at most 128 ciphers are included in ClientHello.
# If the TLSv1.2 test in determine_optimal_sockets_params() was successful,
# then use the 5 TLSv1.3 ciphers plus the cipher selected in the TLSv1.2 test.
# If the TLSv1.2 test was not successful, then just use the 5 TLSv1.3 ciphers
# plus the list of ciphers used in all of the previous tests ($TLS_CIPHER).
if [[ -n "$TLS12_CIPHER_OFFERED" ]]; then
tls13_ciphers_to_test="$TLS13_CIPHER, $TLS12_CIPHER_OFFERED, 00,ff"
else
tls13_ciphers_to_test="$TLS13_CIPHER,$TLS_CIPHER"
fi
tls_sockets "04" "$tls13_ciphers_to_test"
ret_val_tls13=$?
else
run_prototest_openssl "-tls1_3"
ret_val_tls13=$?
fi
if [[ $ret_val_tls13 -eq 0 ]] || [[ $ret_val_tls13 -eq 5 ]]; then
offers_tls13=true # This variable comes in handy for further if statements below
fi
# Done with pretesting TLS 1.2 and 1.3.
pr_bold " TLS 1.2 ";
jsonID="TLS1_2"
case $ret_val_tls12 in
0) prln_svrty_best "offered (OK)"
fileout "$jsonID" "OK" "offered"
latest_supported="0303"
latest_supported_string="TLSv1.2"
add_proto_offered tls1_2 yes
;; # GCM cipher in TLS 1.2: very good!
1) add_proto_offered tls1_2 no
if "$offers_tls13"; then
out "not offered"
else
pr_svrty_medium "not offered"
fi
if [[ -z $latest_supported ]]; then
outln
if "$offers_tls13"; then
fileout "$jsonID" "INFO" "not offered"
else
fileout "$jsonID" "MEDIUM" "not offered" # TLS 1.3, no TLS 1.2 --> no GCM, penalty
set_grade_cap "C" "TLS 1.2 or TLS 1.3 are not offered"
fi
else
prln_svrty_critical " -- connection failed rather than downgrading to $latest_supported_string"
fileout "$jsonID" "CRITICAL" "connection failed rather than downgrading to $latest_supported_string"
fi
;;
2) add_proto_offered tls1_2 no
set_grade_cap "C" "TLS 1.2 is not offered"
pr_svrty_medium "not offered and downgraded to a weaker protocol"
if [[ "$tls12_detected_version" == 0300 ]]; then
detected_version_string="SSLv3"
elif [[ "$tls12_detected_version" == 03* ]]; then
detected_version_string="TLSv1.$((0x$tls12_detected_version-0x0301))"
fi
if [[ "$tls12_detected_version" == "$latest_supported" ]]; then
outln
fileout "$jsonID" "MEDIUM" "not offered and downgraded to a weaker protocol"
elif [[ "$tls12_detected_version" == 03* ]] && [[ 0x$tls12_detected_version -lt 0x$latest_supported ]]; then
prln_svrty_critical " -- server supports $latest_supported_string, but downgraded to $detected_version_string"
fileout "$jsonID" "CRITICAL" "not offered, and downgraded to $detected_version_string rather than $latest_supported_string"
elif [[ "$tls12_detected_version" == 03* ]] && [[ 0x$tls12_detected_version -gt 0x0303 ]]; then
prln_svrty_critical " -- server responded with higher version number ($detected_version_string) than requested by client"
fileout "$jsonID" "CRITICAL" "not offered, server responded with higher version number ($detected_version_string) than requested by client"
else
if [[ ${#tls12_detected_version} -eq 4 ]]; then
prln_svrty_critical "server responded with version number ${tls12_detected_version:0:2}.${tls12_detected_version:2:2} (NOT ok)"
fileout "$jsonID" "CRITICAL" "server responded with version number ${tls12_detected_version:0:2}.${tls12_detected_version:2:2}"
else
prln_svrty_medium " -- strange, server ${tls12_detected_version}"
fileout "$jsonID" "MEDIUM" "strange, server ${tls12_detected_version}"
fi
fi
;;
3) out "not offered, "
fileout "$jsonID" "INFO" "not offered"
add_proto_offered tls1_2 no
set_grade_cap "C" "TLS 1.2 is not offered"
pr_warning "TLS downgraded to STARTTLS plaintext"; outln
fileout "$jsonID" "WARN" "TLS downgraded to STARTTLS plaintext"
;;
4) out "likely "; pr_svrty_medium "not offered, "
fileout "$jsonID" "MEDIUM" "not offered"
add_proto_offered tls1_2 no
set_grade_cap "C" "TLS 1.2 is not offered"
pr_warning "received 4xx/5xx after STARTTLS handshake"; outln "$debug_recomm"
fileout "$jsonID" "WARN" "received 4xx/5xx after STARTTLS handshake${debug_recomm}"
;;
5) outln "$supported_no_ciph1" # protocol detected, but no cipher --> comes from run_prototest_openssl
fileout "$jsonID" "INFO" "$supported_no_ciph1"
add_proto_offered tls1_2 yes
;;
7) if "$using_sockets" ; then
# can only happen in debug mode
pr_warning "strange reply, maybe a client side problem with TLS 1.2"; outln "$debug_recomm"
else
prln_local_problem "$OPENSSL doesn't support \"s_client -tls1_2\""
fileout "$jsonID" "WARN" "not tested due to lack of local support"
fi
((ret++))
;;
*) pr_fixme "unexpected value around line $((LINENO))"; outln "$debug_recomm"
((ret++))
;;
esac
pr_bold " TLS 1.3 ";
jsonID="TLS1_3"
case $ret_val_tls13 in
0) if ! "$using_sockets"; then
prln_svrty_best "offered (OK)"
fileout "$jsonID" "OK" "offered"
else
# If TLS 1.3 is offered, then its support was detected
# by determine_optimal_sockets_params().
if [[ $(has_server_protocol tls1_3_rfc8446) -eq 0 ]]; then
drafts_offered+=" 0304 "
else
for i in 1C 1B 1A 19 18 17 16 15 14 13 12; do
if [[ $(has_server_protocol tls1_3_draft$(hex2dec "$i")) -eq 0 ]]; then
drafts_offered+=" 7F$i "
break
fi
done
fi
KEY_SHARE_EXTN_NR="28"
while true; do
supported_versions=""
for i in 16 15 14 13 12; do
[[ "$drafts_offered" =~ \ 7F$i\ ]] || supported_versions+=",7f,$i"
done
[[ -z "$supported_versions" ]] && break
supported_versions="00, 2b, 00, $(printf "%02x" $((${#supported_versions}/3+1))), $(printf "%02x" $((${#supported_versions}/3))) $supported_versions"
tls_sockets "04" "$TLS13_CIPHER" "" "$supported_versions"
[[ $? -eq 0 ]] || break
if [[ "${TLS_SERVER_HELLO:8:3}" == 7F1 ]]; then
drafts_offered+=" ${TLS_SERVER_HELLO:8:4} "
elif [[ "$TLS_SERVER_HELLO" =~ 002B00027F1[2-6] ]]; then
drafts_offered+=" ${BASH_REMATCH:8:4} "
fi
done
KEY_SHARE_EXTN_NR="33"
while true; do
supported_versions=""
for i in 1C 1B 1A 19 18 17; do
[[ "$drafts_offered" =~ \ 7F$i\ ]] || supported_versions+=",7f,$i"
done
[[ "$drafts_offered" =~ \ 0304\ ]] || supported_versions+=",03,04"
[[ -z "$supported_versions" ]] && break
supported_versions="00, 2b, 00, $(printf "%02x" $((${#supported_versions}/3+1))), $(printf "%02x" $((${#supported_versions}/3))) $supported_versions"
tls_sockets "04" "$TLS13_CIPHER" "" "$supported_versions"
[[ $? -eq 0 ]] || break
if [[ "$TLS_SERVER_HELLO" =~ 002B00020304 ]]; then
drafts_offered+=" 0304 "
elif [[ "$TLS_SERVER_HELLO" =~ 002B00027F1[7-9A-C] ]]; then
drafts_offered+=" ${BASH_REMATCH:8:4} "
fi
done
KEY_SHARE_EXTN_NR="$key_share_extn_nr"
if [[ -n "$drafts_offered" ]]; then
for i in 1C 1B 1A 19 18 17 16 15 14 13 12; do
if [[ "$drafts_offered" =~ \ 7F$i\ ]]; then
[[ -n "$drafts_offered_str" ]] && drafts_offered_str+=", "
drafts_offered_str+="draft $(printf "%d" 0x$i)"
fi
done
if [[ "$drafts_offered" =~ \ 0304\ ]]; then
[[ -n "$drafts_offered_str" ]] && drafts_offered_str+=", "
drafts_offered_str+="final"
fi
if [[ "$drafts_offered" =~ \ 0304\ ]]; then
pr_svrty_best "offered (OK)"; outln ": $drafts_offered_str"
fileout "$jsonID" "OK" "offered with $drafts_offered_str"
else
out "offered (OK)"; outln ": $drafts_offered_str"
fileout "$jsonID" "INFO" "offered with $drafts_offered_str"
fi
else
pr_warning "Unexpected results"; outln "$debug_recomm"
fileout "$jsonID" "WARN" "unexpected results"
fi
fi
latest_supported="0304"
latest_supported_string="TLSv1.3"
add_proto_offered tls1_3 yes
;;
1) pr_svrty_low "not offered"
if [[ -z $latest_supported ]]; then
outln
fileout "$jsonID" "LOW" "not offered"
else
prln_svrty_critical " -- connection failed rather than downgrading to $latest_supported_string"
fileout "$jsonID" "CRITICAL" "connection failed rather than downgrading to $latest_supported_string"
fi
add_proto_offered tls1_3 no
;;
2) if [[ "$DETECTED_TLS_VERSION" == 0300 ]]; then
detected_version_string="SSLv3"
elif [[ "$DETECTED_TLS_VERSION" == 03* ]]; then
detected_version_string="TLSv1.$((0x$DETECTED_TLS_VERSION-0x0301))"
fi
if [[ "$DETECTED_TLS_VERSION" == "$latest_supported" ]]; then
outln "not offered and downgraded to a weaker protocol"
fileout "$jsonID" "INFO" "not offered + downgraded to weaker protocol"
elif [[ "$DETECTED_TLS_VERSION" == 03* ]] && [[ 0x$DETECTED_TLS_VERSION -lt 0x$latest_supported ]]; then
out "not offered"
prln_svrty_critical " -- server supports $latest_supported_string, but downgraded to $detected_version_string"
fileout "$jsonID" "CRITICAL" "not offered, and downgraded to $detected_version_string rather than $latest_supported_string"
elif [[ "$DETECTED_TLS_VERSION" == 03* ]] && [[ 0x$DETECTED_TLS_VERSION -gt 0x0304 ]]; then
out "not offered"
prln_svrty_critical " -- server responded with higher version number ($detected_version_string) than requested by client"
fileout "$jsonID" "CRITICAL" "not offered, server responded with higher version number ($detected_version_string) than requested by client"
else
out "not offered"
prln_svrty_critical " -- server responded with version number ${DETECTED_TLS_VERSION:0:2}.${DETECTED_TLS_VERSION:2:2}"
fileout "$jsonID" "CRITICAL" "server responded with version number ${DETECTED_TLS_VERSION:0:2}.${DETECTED_TLS_VERSION:2:2}"
fi
add_proto_offered tls1_3 no
;;
3) out "not offered "
fileout "$jsonID" "INFO" "not offered"
add_proto_offered tls1_3 no
pr_warning "TLS downgraded to STARTTLS plaintext"; outln
fileout "$jsonID" "WARN" "TLS downgraded to STARTTLS plaintext"
;;
4) out "likely not offered, "
fileout "$jsonID" "INFO" "not offered"
add_proto_offered tls1_3 no
pr_warning "received 4xx/5xx after STARTTLS handshake"; outln "$debug_recomm"
fileout "$jsonID" "WARN" "received 4xx/5xx after STARTTLS handshake${debug_recomm}"
;;
5) outln "$supported_no_ciph1" # protocol detected but no cipher --> comes from run_prototest_openssl
fileout "$jsonID" "INFO" "$supported_no_ciph1"
add_proto_offered tls1_3 yes
;;
7) if "$using_sockets" ; then
# can only happen in debug mode
prln_warning "strange reply, maybe a client side problem with TLS 1.3"; outln "$debug_recomm"
else
prln_local_problem "$OPENSSL doesn't support \"s_client -tls1_3\""
fileout "$jsonID" "WARN" "not tested due to lack of local support"
fi
((ret++))
;;
*) pr_fixme "unexpected value around line $((LINENO))"; outln "$debug_recomm"
((ret++))
;;
esac
debugme echo "PROTOS_OFFERED: $PROTOS_OFFERED"
if [[ ! "$PROTOS_OFFERED" =~ yes ]]; then
outln
ignore_no_or_lame "You should not proceed as no protocol was detected. If you still really really want to, say \"YES\"" "YES"
[[ $? -ne 0 ]] && exit $ERR_CLUELESS
fi
return $ret
}
# list ciphers (and makes sure you have them locally configured)
# arg[1]: non-TLSv1.3 cipher list (or anything else)
# arg[2]: TLSv1.3 cipher list
# arg[3]: protocol (e.g., -ssl2)
#
listciphers() {
local -i ret
local debugname=""
local ciphers="$1"
local tls13_ciphers="$TLS13_OSSL_CIPHERS"
[[ "$2" != ALL ]] && tls13_ciphers="$2"
"$HAS_SECLEVEL" && [[ -n "$ciphers" ]] && ciphers="@SECLEVEL=0:$1"
if "$HAS_CIPHERSUITES"; then
$OPENSSL ciphers $OSSL_CIPHERS_S $3 -ciphersuites "$tls13_ciphers" "$ciphers" &>$TMPFILE
elif [[ -n "$tls13_ciphers" ]]; then
$OPENSSL ciphers $OSSL_CIPHERS_S $3 "$tls13_ciphers:$ciphers" &>$TMPFILE
else
$OPENSSL ciphers $OSSL_CIPHERS_S $3 "$ciphers" &>$TMPFILE
fi
ret=$?
debugme cat $TMPFILE
debugname="$(sed -e s'/\!/not/g' -e 's/\:/_/g' <<< "$1")"
tmpfile_handle ${FUNCNAME[0]}.${debugname}.txt
return $ret
}
# argv[1]: non-TLSv1.3 cipher list to test in OpenSSL syntax
# argv[2]: TLSv1.3 cipher list to test in OpenSSL syntax
# argv[3]: string on console / HTML or "finding"
# argv[4]: rating whether ok to offer
# argv[5]: string to be appended for fileout
# argv[6]: non-SSLv2 cipher list to test (hexcodes), if using sockets
# argv[7]: SSLv2 cipher list to test (hexcodes), if using sockets
# argv[8]: true if using sockets, false if not
# argv[9]: CVE
# argv[10]: CWE
#
sub_cipherlists() {
local -i i len sclient_success=1
local cipherlist sslv2_cipherlist detected_ssl2_ciphers
local singlespaces
local proto=""
local -i ret=0
local jsonID="cipherlist"
local using_sockets="${8}"
local cve="${9}"
local cwe="${10}"
pr_bold "$3 "
[[ "$OPTIMAL_PROTO" == -ssl2 ]] && proto="$OPTIMAL_PROTO"
jsonID="${jsonID}_$5"
if "$using_sockets" || listciphers "$1" "$2" $proto; then
if ! "$using_sockets" || ( "$FAST" && listciphers "$1" "$2" -tls1 ); then
for proto in -no_ssl2 -tls1_2 -tls1_1 -tls1 -ssl3; do
if [[ "$proto" == -tls1_2 ]]; then
# If $OPENSSL doesn't support TLSv1.3 or if no TLSv1.3
# ciphers are being tested, then a TLSv1.2 ClientHello
# was tested in the first iteration.
! "$HAS_TLS13" && continue
[[ -z "$2" ]] && continue
fi
! "$HAS_SSL3" && [[ "$proto" == -ssl3 ]] && continue
if [[ "$proto" != -no_ssl2 ]]; then
"$FAST" && continue
[[ $(has_server_protocol "${proto:1}") -eq 1 ]] && continue
fi
$OPENSSL s_client $(s_client_options "-cipher "$1" -ciphersuites "\'$2\'" $BUGS $STARTTLS -connect $NODEIP:$PORT $PROXY $SNI $proto") 2>$ERRFILE >$TMPFILE </dev/null
sclient_connect_successful $? $TMPFILE
sclient_success=$?
debugme cat $ERRFILE
[[ $sclient_success -eq 0 ]] && break
done
else
for proto in 04 03 02 01 00; do
# If $cipherlist doesn't contain any TLSv1.3 ciphers, then there is
# no reason to try a TLSv1.3 ClientHello.
[[ "$proto" == 04 ]] && [[ ! "$6" =~ 13,0 ]] && continue
[[ $(has_server_protocol "$proto") -eq 1 ]] && continue
cipherlist="$(strip_inconsistent_ciphers "$proto" ", $6")"
cipherlist="${cipherlist:2}"
if [[ -n "$cipherlist" ]] && [[ "$cipherlist" != 00,ff ]]; then
tls_sockets "$proto" "$cipherlist"
sclient_success=$?
[[ $sclient_success -eq 2 ]] && sclient_success=0
[[ $sclient_success -eq 0 ]] && break
fi
done
fi
if [[ $sclient_success -ne 0 ]] && [[ 1 -ne $(has_server_protocol ssl2) ]]; then
if ( [[ -z "$7" ]] || "$FAST" ) && "$HAS_SSL2" && listciphers "$1" "" -ssl2; then
$OPENSSL s_client -cipher "$1" $BUGS $STARTTLS -connect $NODEIP:$PORT $PROXY -ssl2 2>$ERRFILE >$TMPFILE </dev/null
sclient_connect_successful $? $TMPFILE
sclient_success=$?
debugme cat $ERRFILE
elif [[ -n "$7" ]]; then
sslv2_sockets "$7" "true"
if [[ $? -eq 3 ]] && [[ "$V2_HELLO_CIPHERSPEC_LENGTH" -ne 0 ]]; then
sslv2_cipherlist="$(strip_spaces "${6//,/}")"
len=${#sslv2_cipherlist}
detected_ssl2_ciphers="$(grep "Supported cipher: " "$TEMPDIR/$NODEIP.parse_sslv2_serverhello.txt")"
for (( i=0; i<len; i+=6 )); do
[[ "$detected_ssl2_ciphers" =~ "x${sslv2_cipherlist:i:6}" ]] && sclient_success=0 && break
done
fi
fi
fi
if [[ $sclient_success -ne 0 ]] && $BAD_SERVER_HELLO_CIPHER; then
# If server failed with a known error, raise it to the user.
if [[ $STARTTLS_PROTOCOL == mysql ]]; then
pr_warning "SERVER_ERROR: test inconclusive due to MySQL Community Edition (yaSSL) bug."
fileout "$jsonID" "WARN" "SERVER_ERROR, test inconclusive due to MySQL Community Edition (yaSSL) bug." "$cve" "$cwe"
else
pr_warning "SERVER_ERROR: test inconclusive."
fileout "$jsonID" "WARN" "SERVER_ERROR, test inconclusive." "$cve" "$cwe"
fi
((ret++))
else
# Otherwise the error means the server doesn't support that cipher list.
case $4 in
7) if [[ $sclient_success -eq 0 ]]; then
# Strong is excellent to offer
pr_svrty_best "offered (OK)"
fileout "$jsonID" "OK" "offered" "$cve" "$cwe"
else
pr_svrty_medium "not offered"
fileout "$jsonID" "MEDIUM" "not offered" "$cve" "$cwe"
fi
;;
6) if [[ $sclient_success -eq 0 ]]; then
# High is good to offer
pr_svrty_good "offered (OK)"
fileout "$jsonID" "OK" "offered" "$cve" "$cwe"
else
# FIXME: we don't penalize the absence of high, but perhaps
# we should if there is also no strong encryption (next)
out "not offered"
fileout "$jsonID" "INFO" "not offered" "$cve" "$cwe"
fi
;;
5) if [[ $sclient_success -eq 0 ]]; then
# Neither good nor bad to offer
out "offered (OK)"
fileout "$jsonID" "INFO" "offered" "$cve" "$cwe"
else
out "not offered"
fileout "$jsonID" "INFO" "not offered" "$cve" "$cwe"
fi
;;
4) if [[ $sclient_success -eq 0 ]]; then
# medium is not that bad
pr_svrty_low "offered"
fileout "$jsonID" "LOW" "offered" "$cve" "$cwe"
else
out "not offered"
fileout "$jsonID" "INFO" "not offered" "$cve" "$cwe"
fi
;;
3) if [[ $sclient_success -eq 0 ]]; then
pr_svrty_medium "offered"
fileout "$jsonID" "MEDIUM" "offered" "$cve" "$cwe"
else
out "not offered"
fileout "$jsonID" "INFO" "not offered" "$cve" "$cwe"
fi
;;
2) if [[ $sclient_success -eq 0 ]]; then
# bad but there is worse
pr_svrty_high "offered (NOT ok)"
fileout "$jsonID" "HIGH" "offered" "$cve" "$cwe"
else
# need a check for -eq 1 here
pr_svrty_good "not offered (OK)"
fileout "$jsonID" "OK" "not offered" "$cve" "$cwe"
fi
;;
1) if [[ $sclient_success -eq 0 ]]; then
# the ugly ones
pr_svrty_critical "offered (NOT ok)"
fileout "$jsonID" "CRITICAL" "offered" "$cve" "$cwe"
else
pr_svrty_best "not offered (OK)"
fileout "$jsonID" "OK" "not offered" "$cve" "$cwe"
fi
;;
*) # we shouldn't reach this
pr_warning "?: $4 (please report this)"
fileout "$jsonID" "WARN" "return condition $4 unclear" "$cve" "$cwe"
((ret++))
;;
esac
# Not a perfect place here. A new one should be picked in the future
[[ $sclient_success -eq 0 && "$1" =~ (^|:)EXPORT(:|$) ]] && set_grade_cap "F" "Export suite offered"
[[ $sclient_success -eq 0 && "$1" =~ AEAD ]] && set_grade_cap "B" "No AEAD ciphers offered"
fi
tmpfile_handle ${FUNCNAME[0]}.${5}.txt
[[ $DEBUG -ge 1 ]] && tm_out " -- $1"
outln
else
singlespaces=$(sed -e 's/ \+/ /g' -e 's/^ //' -e 's/ $//g' -e 's/ //g' <<< "$3")
if [[ "$OPTIMAL_PROTO" == -ssl2 ]]; then
prln_local_problem "No $singlespaces for SSLv2 configured in $OPENSSL"
else
prln_local_problem "No $singlespaces configured in $OPENSSL"
fi
fileout "$jsonID" "WARN" "Cipher $3 ($1) not supported by local OpenSSL ($OPENSSL)"
fi
return $ret
}
#TODO: work with fixed lists here --> atm ok, as sockets are preferred. If there would be a single function for testing: yes.
run_cipherlists() {
local hexc hexcode strength
local -i i
local -i ret=0
local ossl_null_ciphers null_ciphers sslv2_null_ciphers
local ossl_anon_ciphers anon_ciphers sslv2_anon_ciphers
local ossl_exp_ciphers exp_ciphers sslv2_exp_ciphers
local ossl_low_ciphers low_ciphers sslv2_low_ciphers
local ossl_tdes_ciphers tdes_ciphers sslv2_tdes_ciphers
local ossl_obsoleted_ciphers obsoleted_ciphers
local strong_ciphers
local cwe="CWE-327"
local cwe2="CWE-310"
local cve=""
local using_sockets=true
outln
pr_headlineln " Testing cipher categories "
outln
"$SSL_NATIVE" && using_sockets=false
# conversion 2 byte ciphers via: echo "$@" | sed -e 's/[[:xdigit:]]\{2\},/0x&/g' -e 's/, /\n/g' | while read ci; do grep -wi $ci etc/cipher-mapping.txt; done
ossl_null_ciphers='NULL:eNULL'
null_ciphers="c0,10, c0,06, c0,15, c0,0b, c0,01, c0,3b, c0,3a, c0,39, 00,b9, 00,b8, 00,b5, 00,b4, 00,2e, 00,2d, 00,b1, 00,b0, 00,2c, 00,3b, 00,02, 00,01, 00,82, 00,83, ff,87, 00,ff"
sslv2_null_ciphers="FF,80,10, 00,00,00"
ossl_anon_ciphers='aNULL:ADH'
anon_ciphers="c0,19, 00,a7, 00,6d, 00,3a, 00,c5, 00,89, c0,47, c0,5b, c0,85, c0,18, 00,a6, 00,6c, 00,34, 00,bf, 00,9b, 00,46, c0,46, c0,5a, c0,84, c0,16, 00,18, c0,17, 00,1b, 00,1a, 00,19, 00,17, c0,15, 00,ff"
sslv2_anon_ciphers="FF,80,10"
ossl_exp_ciphers='EXPORT:!ADH:!NULL'
# grep -i EXP etc/cipher-mapping.txt
exp_ciphers="00,63, 00,62, 00,61, 00,65, 00,64, 00,60, 00,14, 00,11, 00,19, 00,08, 00,06, 00,27, 00,26, 00,2a, 00,29, 00,0b, 00,0e, 00,17, 00,03, 00,28, 00,2b, 00,ff"
sslv2_exp_ciphers="04,00,80, 02,00,80, 00,00,00"
ossl_low_ciphers='LOW:DES:RC2:RC4:MD5:!ADH:!EXP:!NULL:!eNULL:!AECDH'
# egrep -w '64|56|RC2|RC4|MD5' etc/cipher-mapping.txt | egrep -v 'Au=None|export'
low_ciphers="00,04, 00,05, 00,09, 00,0C, 00,0F, 00,12, 00,15, 00,1E, 00,20, 00,22, 00, 23, 00,24, 00,25, 00,66, 00,8A, 00,8E, 00,92, C0,02, C0,07, C0,0C, C0,11, C0,33, FF,00, FE,FE, FF,E1, 00,FF"
sslv2_low_ciphers="01,00,80, 03,00,80, 05,00,80, 06,00,40, 06,01,40, 07,00,c0, 08,00,80, FF,80,00"
ossl_tdes_ciphers='3DES:IDEA:!aNULL:!ADH:!MD5'
# egrep -w '3DES|IDEA' etc/cipher-mapping.txt | egrep -v "Au=None|MD5"
tdes_ciphers="00,07, 00,0A, 00,0D, 00,10, 00,13, 00,16, 00,1F, 00,21, 00,8B, 00,8F, 00,93, C0,03, C0,08, C0,0D, C0,12, C0,1A, C0,1B, C0,1C, C0,34, FE,FF, FF,E0, 00,FF"
sslv2_tdes_ciphers="07,01,c0"
# # Now all AES, CAMELLIA, ARIA and SEED CBC ciphers plus GOST
ossl_obsoleted_ciphers='HIGH:MEDIUM:AES:CAMELLIA:ARIA:!IDEA:!CHACHA20:!3DES:!RC2:!RC4:!AESCCM8:!AESCCM:!AESGCM:!ARIAGCM:!aNULL:!MD5'
# egrep -w "256|128" etc/cipher-mapping.txt | egrep -v "Au=None|AEAD|RC2|RC4|IDEA|MD5"
obsoleted_ciphers="00,2F, 00,30, 00,31, 00,32, 00,33, 00,35, 00,36, 00,37, 00,38, 00,39, 00,3C, 00,3D, 00,3E, 00,3F, 00,40, 00,41, 00,42, 00,43, 00,44, 00,45, 00,67, 00,68, 00,69, 00,6A, 00,6B, 00,84, 00,85, 00,86, 00,87, 00,88, 00,8C, 00,8D, 00,90, 00,91, 00,94, 00,95, 00,96, 00,97, 00,98, 00,99, 00,9A, 00,AE, 00,AF, 00,B2, 00,B3, 00,B6, 00,B7, 00,BA, 00,BB, 00,BC, 00,BD, 00,BE, 00,C0, 00,C1, 00,C2, 00,C3, 00,C4, C0,04, C0,05, C0,09, C0,0A, C0,0E, C0,0F, C0,13, C0,14, C0,1D, C0,1E, C0,1F, C0,20, C0,21, C0,22, C0,23, C0,24, C0,25, C0,26, C0,27, C0,28, C0,29, C0,2A, C0,35, C0,36, C0,37, C0,38, C0,3C, C0,3D, C0,3E, C0,3F, C0,40, C0,41, C0,42, C0,43, C0,44, C0,45, C0,48, C0,49, C0,4A, C0,4B, C0,4C, C0,4D, C0,4E, C0,4F, C0,64, C0,65, C0,66, C0,67, C0,68, C0,69, C0,70, C0,71, C0,72, C0,73, C0,74, C0,75, C0,76, C0,77, C0,78, C0,79, C0,94, C0,95, C0,96, C0,97, C0,98, C0,99, C0,9A, C0,9B"
# Workaround: If we use sockets and in order not to hit 131+1 ciphers we omit the GOST ciphers if SERVER_SIZE_LIMIT_BUG is true.
# This won't be supported by Cisco ACE anyway.
"$SERVER_SIZE_LIMIT_BUG" || obsoleted_ciphers="${obsoleted_ciphers}, 00,80, 00,81, FF,01, FF,02, FF,03, FF,85"
obsoleted_ciphers="${obsoleted_ciphers}, 00,FF"
ossl_good_ciphers='AESGCM:CHACHA20:CamelliaGCM:AESCCM:ARIAGCM:!kEECDH:!kEDH:!kDHE:!kDHEPSK:!kECDHEPSK:!aNULL'
# grep AEAD etc/cipher-mapping.txt | egrep -v 'Au=None|TLS_ECDHE|TLS_DHE|TLS_PSK_DHE|TLSv1.3'
good_ciphers="00,9C, 00,9D, 00,A0, 00,A1, 00,A4, 00,A5, 00,A8, 00,A9, 00,AC, 00,AD, C0,2D, C0,2E, C0,31, C0,32, C0,50, C0,51, C0,54, C0,55, C0,58, C0,59, C0,5E, C0,5F, C0,62, C0,63, C0,6A, C0,6B, C0,6E, C0,6F, C0,7A, C0,7B, C0,7E, C0,7F, C0,82, C0,83, C0,88, C0,89, C0,8C, C0,8D, C0,8E, C0,8F, C0,92, C0,93, C0,9C, C0,9D, C0,A0, C0,A1, C0,A4, C0,A5, C0,A8, C0,A9, CC,AB, CC,AE, 00,FF"
ossl_strong_ciphers='AESGCM:CHACHA20:CamelliaGCM:AESCCM:ARIAGCM:!kPSK:!kRSAPSK:!kRSA:!kDH:!kECDH:!aNULL'
# grep AEAD etc/cipher-mapping.txt | egrep 'TLS_ECDHE|TLS_DHE|TLS_PSK_DHE|TLSv1.3'
strong_ciphers="00,9E, 00,9F, 00,A2, 00,A3, 00,AA, 00,AB, 13,01, 13,02, 13,03, 13,04, 13,05, 16,B7, 16,B8, 16,B9, 16,BA, C0,2B, C0,2C, C0,2F, C0,30, C0,52, C0,53, C0,56, C0,57, C0,5C, C0,5D, C0,60, C0,61, C0,6C, C0,6D, C0,7C, C0,7D, C0,80, C0,81, C0,86, C0,87, C0,8A, C0,8B, C0,90, C0,91, C0,9E, C0,9F, C0,A2, C0,A3, C0,A6, C0,A7, C0,AA, C0,AB, C0,AC, C0,AD, C0,AE, C0,AF, CC,13, CC,14, CC,15, CC,A8, CC,A9, CC,AA, CC,AC, CC,AD, 00,FF"
# argv[1]: non-TLSv1.3 cipher list to test in OpenSSL syntax
# argv[2]: TLSv1.3 cipher list to test in OpenSSL syntax
# argv[3]: string on console / HTML or "finding"
# argv[4]: rating whether ok to offer
# argv[5]: string to be appended for fileout
# argv[6]: non-SSLv2 cipher list to test (hexcodes), if using sockets
# argv[7]: SSLv2 cipher list to test (hexcodes), if using sockets
# argv[8]: true if using sockets, false if not
# argv[9]: CVE
# argv[10]: CWE
sub_cipherlists "$ossl_null_ciphers" "" " NULL ciphers (no encryption) " 1 "NULL" "$null_ciphers" "$sslv2_null_ciphers" "$using_sockets" "$cve" "$cwe"
ret=$?
sub_cipherlists "$ossl_anon_ciphers" "" " Anonymous NULL Ciphers (no authentication) " 1 "aNULL" "$anon_ciphers" "$sslv2_anon_ciphers" "$using_sockets" "$cve" "$cwe"
ret=$((ret + $?))
sub_cipherlists "$ossl_exp_ciphers" "" " Export ciphers (w/o ADH+NULL) " 1 "EXPORT" "$exp_ciphers" "$sslv2_exp_ciphers" "$using_sockets" "$cve" "$cwe"
ret=$((ret + $?))
sub_cipherlists "$ossl_low_ciphers" "" " LOW: 64 Bit + DES, RC[2,4], MD5 (w/o export) " 2 "LOW" "$low_ciphers" "$sslv2_low_ciphers" "$using_sockets" "$cve" "$cwe"
ret=$((ret + $?))
sub_cipherlists "$ossl_tdes_ciphers" "" " Triple DES Ciphers / IDEA " 3 "3DES_IDEA" "$tdes_ciphers" "$sslv2_tdes_ciphers" "$using_sockets" "$cve" "$cwe2"
ret=$((ret + $?))
sub_cipherlists "$ossl_obsoleted_ciphers" "" " Obsoleted CBC ciphers (AES, ARIA etc.) " 4 "AVERAGE" "$obsoleted_ciphers" "" "$using_sockets" "$cve" "$cwe2"
ret=$((ret + $?))
sub_cipherlists "$ossl_good_ciphers" "" " Strong encryption (AEAD ciphers) with no FS " 6 "GOOD" "$good_ciphers" "" "$using_sockets" "" ""
ret=$((ret + $?))
sub_cipherlists "$ossl_strong_ciphers" 'ALL' " Forward Secrecy strong encryption (AEAD ciphers)" 7 "STRONG" "$strong_ciphers" "" "$using_sockets" "" ""
ret=$((ret + $?))
outln
return $ret
}
# The return value is an indicator of the quality of the DH key length in $1:
# 1 = pr_svrty_critical, 2 = pr_svrty_high, 3 = pr_svrty_medium, 4 = pr_svrty_low
# 5 = neither good nor bad, 6 = pr_svrty_good, 7 = pr_svrty_best
pr_dh_quality() {
local bits="$1"
local string="$2"
if [[ "$bits" -le 600 ]]; then
pr_svrty_critical "$string"
return 1
elif [[ "$bits" -le 800 ]]; then
pr_svrty_high "$string"
return 2
elif [[ "$bits" -le 1280 ]]; then
pr_svrty_medium "$string"
return 3
elif [[ "$bits" -ge 2048 ]]; then
pr_svrty_good "$string"
return 6
else
out "$string"
return 5
fi
}
# prints out dh group=prime and in round brackets DH bits and labels it accordingly
# arg1: name of dh group, arg2=bit length
pr_dh() {
local -i quality=0
pr_italic "$1"
out " ("
pr_dh_quality "$2" "$2 bits"
quality=$?
out ")"
return $quality
}
pr_ecdh_quality() {
local bits="$1"
local string="$2"
if [[ "$bits" -le 80 ]]; then # has that ever existed?
pr_svrty_critical "$string"
elif [[ "$bits" -le 108 ]]; then # has that ever existed?
pr_svrty_high "$string"
elif [[ "$bits" -le 163 ]]; then
pr_svrty_medium "$string"
elif [[ "$bits" -le 193 ]]; then # hmm, according to https://wiki.openssl.org/index.php/Elliptic_Curve_Cryptography it should ok
pr_svrty_low "$string" # but openssl removed it https://github.com/drwetter/testssl.sh/issues/299#issuecomment-220905416
elif [[ "$bits" -le 224 ]]; then
out "$string"
elif [[ "$bits" -gt 224 ]]; then
pr_svrty_good "$string"
else
out "$string"
fi
}
pr_ecdh_curve_quality() {
curve="$1"
local -i bits=0
case "$curve" in
"sect163k1") bits=163 ;;
"sect163r1") bits=162 ;;
"sect163r2") bits=163 ;;
"sect193r1") bits=193 ;;
"sect193r2") bits=193 ;;
"sect233k1") bits=232 ;;
"sect233r1") bits=233 ;;
"sect239k1") bits=238 ;;
"sect283k1") bits=281 ;;
"sect283r1") bits=282 ;;
"sect409k1") bits=407 ;;
"sect409r1") bits=409 ;;
"sect571k1") bits=570 ;;
"sect571r1") bits=570 ;;
"secp160k1") bits=161 ;;
"secp160r1") bits=161 ;;
"secp160r2") bits=161 ;;
"secp192k1") bits=192 ;;
"prime192v1") bits=192 ;;
"secp224k1") bits=225 ;;
"secp224r1") bits=224 ;;
"secp256k1") bits=256 ;;
"prime256v1") bits=256 ;;
"secp384r1") bits=384 ;;
"secp521r1") bits=521 ;;
"brainpoolP256r1") bits=256 ;;
"brainpoolP384r1") bits=384 ;;
"brainpoolP512r1") bits=512 ;;
"X25519") bits=253 ;;
"X448") bits=448 ;;
esac
pr_ecdh_quality "$bits" "$curve"
}
# Return a value that is an indicator of the quality of the cipher in $1:
# 0 = $1 is empty
# 1 = pr_svrty_critical, 2 = pr_svrty_high, 3 = pr_svrty_medium, 4 = pr_svrty_low
# 5 = neither good nor bad, 6 = pr_svrty_good, 7 = pr_svrty_best
#
# Please note this section isn't particular spot on. It needs to be reconsidered/redone
# SHA1, SSLv3 ciphers are some points which need to be considered.
# Hint: find out by "grep <pattern> etc/cipher-mapping.txt" but it' might be be easier
# to look out Enc= and Au= or Mac=
#
get_cipher_quality() {
local cipher="$1"
local ossl_cipher
[[ -z "$1" ]] && return 0
if [[ "$cipher" != TLS_* ]] && [[ "$cipher" != SSL_* ]]; then
# This must be the OpenSSL name for a cipher or for TLS 1.3 ($TLS13_OSSL_CIPHERS)
# We can ignore them however as the OpenSSL and RFC names currently match
if [[ $TLS_NR_CIPHERS -eq 0 ]]; then
# We have an OpenSSL name and can't convert it to the RFC name which is rarely
# the case, see "prepare_arrays()" and "./etc/cipher-mapping.txt"
case "$cipher" in
*NULL*|EXP*|ADH*|AECDH*|*anon*)
return 1
;;
*RC4*|*RC2*|*MD5|*M1)
return 2
;;
AES256-GCM-SHA384|AES128-GCM-SHA256|AES256-CCM*|AES128-CCM*|ARIA256-GCM-SHA384|ARIA128-GCM-SHA256)
# RSA kx and e.g. GCM isn't certainly the best
return 6
;;
*CBC3*|*3DES*|*IDEA*)
return 3
;;
*DES*)
return 2
;;
PSK-*GCM*|PSK-*CCM*|RSA-PSK-*GCM*|RSA-PSK-CHACHA20-POLY1305|PSK-CHACHA20-POLY1305)
# PSK kx and e.g. GCM isn't certainly the best
return 6
;;
DH-*GCM*|ECDH-*GCM*)
# static DH or ECDH kx and GCM isn't certainly the best
return 6
;;
*GCM*|*CCM*|*CHACHA20*)
return 7
;; #best ones
*AES*SHA*|*CAMELLIA*SHA*|*SEED*SHA*|*CBC*|*GOST*)
return 4
;;
*)
return 5
;;
esac
fi
ossl_cipher="$cipher"
cipher="$(openssl2rfc "$cipher")"
[[ -z "$cipher" ]] && cipher="$ossl_cipher"
fi
# Now we look at the RFC cipher names. The sequence matters - as above.
case "$cipher" in
*NULL*|*EXP*|*_DES40_*|*anon*)
return 1
;;
*RC4*|*RC2*|*MD5|*MD5_1)
return 2
;;
*_DES_*)
if [[ "$cipher" =~ EDE3 ]]; then
return 3
fi
return 2
;;
*CBC3*|*3DES*|*IDEA*)
return 3
;;
*CBC*|*GOST*)
return 4
;;
TLS_RSA_*|TLS_DH_*|TLS_ECDH_*|TLS_PSK_WITH_*)
# RSA, or static DH, ECDH, or PSK kx and e.g. GCM isn't certainly the best
return 6
;;
*GCM*|*CCM*|*CHACHA20*)
return 7
;;
*)
return 5
;;
esac
}
# Output the severity level associated with the cipher in $1.
get_cipher_quality_severity() {
local cipher="$1"
local -i quality
[[ -z "$1" ]] && return 0
get_cipher_quality "$cipher"
quality=$?
case $quality in
1) tm_out "CRITICAL" ;;
2) tm_out "HIGH" ;;
3) tm_out "MEDIUM" ;;
4) tm_out "LOW" ;;
5) tm_out "INFO" ;;
6|7) tm_out "OK" ;;
esac
return $quality
}
# Print $2 based on the quality of the cipher in $1. If $2 is empty, just print $1.
# The return value is an indicator of the quality of the cipher in $1:
# 0 = $1 is empty
# 1 = pr_svrty_critical, 2 = pr_svrty_high, 3 = pr_svrty_medium, 4 = pr_svrty_low
# 5 = neither good nor bad, 6 = pr_svrty_good, 7 = pr_svrty_best
#
pr_cipher_quality() {
local cipher="$1"
local text="$2"
local -i quality
[[ -z "$1" ]] && return 0
[[ -z "$text" ]] && text="$cipher"
get_cipher_quality "$cipher"
quality=$?
case $quality in
1) pr_svrty_critical "$text" ;;
2) pr_svrty_high "$text" ;;
3) pr_svrty_medium "$text" ;;
4) pr_svrty_low "$text" ;;
5) out "$text" ;;
6) pr_svrty_good "$text" ;;
7) pr_svrty_best "$text" ;;
esac
return $quality
}
# arg1: file with input for grepping the type of ephemeral DH key (DH ECDH)
read_dhtype_from_file() {
local temp kx
temp=$(awk -F': ' '/^Server Temp Key/ { print $2 }' "$1") # extract line
kx="Kx=${temp%%,*}"
[[ "$kx" == "Kx=X25519" ]] && kx="Kx=ECDH"
[[ "$kx" == "Kx=X448" ]] && kx="Kx=ECDH"
tm_out "$kx"
return 0
}
# arg1: certificate file
read_sigalg_from_file() {
local sig_alg
sig_alg="$(strip_leading_space "$($OPENSSL x509 -noout -text -in "$1" 2>/dev/null | awk -F':' '/Signature Algorithm/ { print $2; exit; }')")"
case "$sig_alg" in
1.3.101.112|ED25519) tm_out "Ed25519" ;;
1.3.101.113|ED448) tm_out "Ed448" ;;
*) tm_out "$sig_alg" ;;
esac
}
# arg1: file with input for grepping the bit length for ECDH/DHE
# arg2: whether to print warning "old fart" or not (empty: no)
read_dhbits_from_file() {
local bits what_dh temp curve=""
local add=""
local old_fart=" (your $OPENSSL cannot show DH bits)"
temp=$(awk -F': ' '/^Server Temp Key/ { print $2 }' "$1") # extract line
what_dh="${temp%%,*}"
bits="${temp##*, }"
curve="${temp#*, }"
if [[ "$curve" == "$bits" ]]; then
curve=""
else
curve="${curve%%,*}"
fi
bits="${bits/bits/}"
bits="${bits// /}"
if [[ "$what_dh" == X25519 ]] || [[ "$what_dh" == X448 ]]; then
curve="$what_dh"
what_dh="ECDH"
fi
if [[ -z "$2" ]]; then
if [[ -n "$curve" ]]; then
debugme echo ">$HAS_DH_BITS|$what_dh($curve)|$bits<"
else
debugme echo ">$HAS_DH_BITS|$what_dh|$bits<"
fi
fi
[[ -n "$what_dh" ]] && HAS_DH_BITS=true # FIX 190
if [[ -z "$what_dh" ]] && ! "$HAS_DH_BITS"; then
if [[ "$2" == "string" ]]; then
tm_out "$old_fart"
elif [[ -z "$2" ]]; then
pr_warning "$old_fart"
fi
return 0
fi
if [[ "$2" == quiet ]]; then
tm_out "$bits"
return 0
fi
[[ -z "$2" ]] && [[ -n "$bits" ]] && out ", "
if [[ $what_dh == DH ]] || [[ $what_dh == EDH ]]; then
add="bit DH"
[[ -n "$curve" ]] && add+=" ($curve)"
if [[ "$2" == string ]]; then
tm_out ", $bits $add"
else
pr_dh_quality "$bits" "$bits $add"
fi
# https://wiki.openssl.org/index.php/Elliptic_Curve_Cryptography, https://www.keylength.com/en/compare/
elif [[ $what_dh == ECDH ]]; then
add="bit ECDH"
[[ -n "$curve" ]] && add+=" ($curve)"
if [[ "$2" == string ]]; then
tm_out ", $bits $add"
else
pr_ecdh_quality "$bits" "$bits $add"
fi
fi
return 0
}
# arg1: ID or empty. If empty resumption by ticket will be tested, otherwise by ID
# return: 0: it has resumption, 1:nope, 2: nope (OpenSSL 1.1.1), 6: CLIENT_AUTH --> problem for resumption, 7: can't tell
#
# This is basically a short(?) version from Bulletproof SSL and TLS (p386). The version according to that would be e.g.
# echo | $OPENSSL s_client -connect testssl.sh:443 -servername testssl.sh -no_ssl2 -reconnect 2>&1 | grep -E 'New|Reused'
# echo | $OPENSSL s_client -connect testssl.sh:443 -servername testssl.sh -no_ssl2 -no_ticket -reconnect 2>&1 | grep -E 'New|Reused|Session-ID'
#
# FIXME: actually Ivan's version seems faster. Worth to check and since when -reconnect is a/v
#
sub_session_resumption() {
local ret ret1 ret2
local tmpfile=$(mktemp $TEMPDIR/session_resumption.$NODEIP.XXXXXX)
local sess_data=$(mktemp $TEMPDIR/sub_session_data_resumption.$NODEIP.XXXXXX)
local -a rw_line
local protocol="$1"
if [[ "$2" == ID ]]; then
local byID=true
local addcmd="-no_ticket"
else
local byID=false
local addcmd=""
if ! "$TLS_TICKETS"; then
return 1
fi
fi
[[ "$CLIENT_AUTH" == required ]] && return 6
if ! "$HAS_TLS13" && "$HAS_NO_SSL2"; then
addcmd+=" -no_ssl2"
else
protocol=${protocol/\./_}
protocol=${protocol/v/}
protocol="-$(tolower $protocol)"
# In some cases a server will not support session tickets, but will support session resumption
# by ID. In such a case, it may be more likely to support session resumption with TLSv1.2 than
# with TLSv1.3. So, if testing a server that does not support session tickets and that supports
# both TLSv1.3 and TLSv1.2 for session resumption by ID, then use a TLSv1.2 ClientHello. (Note that
# the line below assumes that if $protocol is -tls1_3, then the server either supports TLSv1.2 or
# is TLSv1.3-only.
! "$TLS_TICKETS" && "$byID" && [[ $(has_server_protocol "tls1_2") -eq 0 ]] && protocol="-tls1_2"
addcmd+=" $protocol"
fi
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI $addcmd -sess_out $sess_data") </dev/null &>/dev/null
ret1=$?
if [[ $ret1 -ne 0 ]]; then
debugme echo -n "Couldn't connect #1 "
return 7
fi
if "$byID" && [[ ! "$OSSL_NAME" =~ LibreSSL ]] && \
( [[ $OSSL_VER_MAJOR.$OSSL_VER_MINOR == 1.1.1* ]] || [[ $OSSL_VER_MAJOR.$OSSL_VER_MINOR == 3.0.0* ]] ) && \
[[ ! -s "$sess_data" ]]; then
# it seems OpenSSL indicates no Session ID resumption by just not generating output
debugme echo -n "No session resumption byID (empty file)"
ret=2
else
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI $addcmd -sess_in $sess_data") </dev/null >$tmpfile 2>$ERRFILE
ret2=$?
if [[ $DEBUG -ge 2 ]]; then
echo -n "$ret1, $ret2, "
[[ -s "$sess_data" ]] && echo "not empty" || echo "empty"
fi
if [[ $ret2 -ne 0 ]]; then
debugme echo -n "Couldn't connect #2 "
return 7
fi
# "Reused" indicates session material was reused, "New": not
if grep -aq "^Reused" "$tmpfile"; then
new_sid=false
elif grep -aq "^New" "$tmpfile"; then
new_sid=true
else
debugme echo -n "Problem with 2nd ServerHello "
fi
# Now get the line and compare the numbers "read" and "written" as a second criteria.
# If the "read" number is bigger: a new session ID was probably used
rw_line="$(awk '/^SSL handshake has read/ { print $5" "$(NF-1) }' "$tmpfile" )"
rw_line=($rw_line)
if [[ "${rw_line[0]}" -gt "${rw_line[1]}" ]]; then
new_sid2=true
else
new_sid2=false
fi
debugme echo "${rw_line[0]}, ${rw_line[1]}"
if "$new_sid2" && "$new_sid"; then
debugme echo -n "No session resumption "
ret=1
elif ! "$new_sid2" && ! "$new_sid"; then
debugme echo -n "Session resumption "
ret=0
else
debugme echo -n "unclear status: $ret1, $ret2, $new_sid, $new_sid2 -- "
ret=5
fi
if [[ $DEBUG -ge 2 ]]; then
"$byID" && echo "byID" || echo "by ticket"
fi
fi
"$byID" && \
tmpfile_handle ${FUNCNAME[0]}.byID.log $tmpfile || \
tmpfile_handle ${FUNCNAME[0]}.byticket.log $tmpfile
return $ret
}
run_server_preference() {
local cipher1="" cipher2="" tls13_cipher1="" tls13_cipher2="" default_proto=""
local default_cipher=""
local limitedsense="" supported_sslv2_ciphers
local proto_ossl proto_txt proto_hex cipherlist i
local -i ret=0 j sclient_success
local list_fwd="DHE-RSA-SEED-SHA:SEED-SHA:DES-CBC3-SHA:RC4-MD5:DES-CBC-SHA:RC4-SHA:AES128-SHA:AES128-SHA256:AES256-SHA:ECDHE-RSA-AES128-SHA:DHE-RSA-AES128-SHA:DHE-RSA-AES256-SHA:ECDH-RSA-DES-CBC3-SHA:ECDH-RSA-AES128-SHA:ECDH-RSA-AES256-SHA:ECDHE-RSA-AES256-GCM-SHA384:DHE-RSA-AES128-SHA256:DHE-RSA-AES256-GCM-SHA384:ECDHE-ECDSA-AES128-SHA256:ECDHE-RSA-AES128-GCM-SHA256:ECDHE-RSA-AES256-SHA384:ECDHE-RSA-AES256-SHA:DHE-DSS-AES256-GCM-SHA384:ECDHE-ECDSA-AES256-GCM-SHA384:ECDHE-ECDSA-AES128-GCM-SHA256:AES256-SHA256:ECDHE-RSA-DES-CBC3-SHA:ECDHE-RSA-AES128-SHA256:AES256-GCM-SHA384:AES128-GCM-SHA256:DHE-RSA-AES128-GCM-SHA256:DHE-RSA-AES256-SHA256:ADH-AES256-GCM-SHA384:AECDH-AES128-SHA:ECDHE-RSA-RC4-SHA:ECDHE-ECDSA-AES128-SHA"
local list_reverse="ECDHE-ECDSA-AES128-SHA:ECDHE-RSA-RC4-SHA:AECDH-AES128-SHA:ADH-AES256-GCM-SHA384:DHE-RSA-AES256-SHA256:DHE-RSA-AES128-GCM-SHA256:AES128-GCM-SHA256:AES256-GCM-SHA384:ECDHE-RSA-AES128-SHA256:ECDHE-RSA-DES-CBC3-SHA:AES256-SHA256:ECDHE-ECDSA-AES128-GCM-SHA256:ECDHE-ECDSA-AES256-GCM-SHA384:DHE-DSS-AES256-GCM-SHA384:ECDHE-RSA-AES256-SHA:ECDHE-RSA-AES256-SHA384:ECDHE-RSA-AES128-GCM-SHA256:ECDHE-ECDSA-AES128-SHA256:DHE-RSA-AES256-GCM-SHA384:DHE-RSA-AES128-SHA256:ECDHE-RSA-AES256-GCM-SHA384:ECDH-RSA-AES256-SHA:ECDH-RSA-AES128-SHA:ECDH-RSA-DES-CBC3-SHA:DHE-RSA-AES256-SHA:DHE-RSA-AES128-SHA:ECDHE-RSA-AES128-SHA:AES256-SHA:AES128-SHA256:AES128-SHA:RC4-SHA:DES-CBC-SHA:RC4-MD5:DES-CBC3-SHA:SEED-SHA:DHE-RSA-SEED-SHA"
tls_list_fwd="c0,2c, c0,30, 00,9f, cc,a9, cc,a8, cc,aa, c0,2b, c0,2f, 00,9e, c0,24, c0,28, 00,6b, c0,23, c0,27, 00,67, c0,0a, 00,04, 00,05, 00,09, 00,0a, 00,9a, 00,96,
c0,14, 00,39, c0,09, c0,13, 00,33, 00,9d, 00,9c, 13,01, 13,02, 13,03, 13,04, 13,05, 00,3d, 00,3c, 00,35, 00,2f, 00,ff"
tls_list_rev="00,2f, 00,35, 00,3c, 00,3d, 13,05, 13,04, 13,03, 13,02, 13,01, 00,9c, 00,9d, 00,33, c0,13, c0,09, 00,39, c0,14, 00,96, 00,9a, 00,0a, 00,09, 00,05, 00,04,
c0,0a, 00,67, c0,27, c0,23, 00,6b, c0,28, c0,24, 00,9e, c0,2f, c0,2b, cc,aa, cc,a8, cc,a9, 00,9f, c0,30, c0,2c, 00,ff"
local has_cipher_order=false has_tls13_cipher_order=false
local addcmd="" addcmd2=""
local using_sockets=true
local jsonID="cipher_order"
local cwe="CWE-310"
local cve=""
"$SSL_NATIVE" && using_sockets=false
outln
pr_headlineln " Testing server's cipher preferences "
outln
pr_bold " Has server cipher order? "
if [[ "$OPTIMAL_PROTO" == -ssl2 ]]; then
addcmd="$OPTIMAL_PROTO"
else
# the supplied openssl will send an SSLv2 ClientHello if $SNI is empty
# and the -no_ssl2 isn't provided.
addcmd="-no_ssl2 $SNI"
fi
# Determine negotiated protocol upfront
sclient_success=1
if "$using_sockets" && [[ $(has_server_protocol "tls1_3") -ne 1 ]]; then
# Send similar list of cipher suites as OpenSSL 1.1.1 does
tls_sockets "04" \
"c0,2c, c0,30, 00,9f, cc,a9, cc,a8, cc,aa, c0,2b, c0,2f, 00,9a, 00,96,
00,9e, c0,24, c0,28, 00,6b, c0,23, c0,27, 00,67, c0,0a,
c0,14, 00,39, c0,09, c0,13, 00,33, 00,9d, 00,9c, 13,02,
13,03, 13,01, 13,04, 13,05, 00,3d, 00,3c, 00,35, 00,2f, 00,ff" \
"ephemeralkey"
sclient_success=$?
if [[ $sclient_success -eq 0 ]]; then
add_proto_offered tls1_3 yes
elif [[ $sclient_success -eq 2 ]]; then
sclient_success=0 # 2: downgraded
case $DETECTED_TLS_VERSION in
0303) add_proto_offered tls1_2 yes ;;
0302) add_proto_offered tls1_1 yes ;;
0301) add_proto_offered tls1 yes ;;
0300) add_proto_offered ssl3 yes ;;
esac
fi
if [[ $sclient_success -eq 0 ]] ; then
cp "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" $TMPFILE
cp "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" "$TEMPDIR/$NODEIP.parse_tls13_serverhello.txt"
cipher0=$(get_cipher $TMPFILE)
fi
fi
if [[ $sclient_success -ne 0 ]]; then
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $addcmd") </dev/null 2>>$ERRFILE >$TMPFILE
if sclient_connect_successful $? $TMPFILE; then
cipher0=$(get_cipher $TMPFILE)
debugme tm_out "0 --> $cipher0\n"
cp $TMPFILE "$TEMPDIR/$NODEIP.parse_tls13_serverhello.txt"
else
# 2 second try with $OPTIMAL_PROTO especially for intolerant IIS6 servers:
$OPENSSL s_client $(s_client_options "$STARTTLS $OPTIMAL_PROTO $BUGS -connect $NODEIP:$PORT $PROXY $SNI") </dev/null 2>>$ERRFILE >$TMPFILE
if ! sclient_connect_successful $? $TMPFILE; then
pr_warning "Handshake error!"
ret=1
fi
fi
fi
default_proto=$(get_protocol $TMPFILE)
[[ "$default_proto" == TLSv1.0 ]] && default_proto="TLSv1"
# debugme tm_out " --> $default_proto\n"
# Some servers don't have a TLS 1.3 cipher order, see #1163
if [[ "$default_proto" == TLSv1.3 ]]; then
tls_sockets "04" "13,05, 13,04, 13,03, 13,02, 13,01, 00,ff"
[[ $? -ne 0 ]] && ret=1 && prln_fixme "something weird happened around line $((LINENO - 1))"
cp "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" $TMPFILE
tls13_cipher1=$(get_cipher $TMPFILE)
debugme tm_out "TLS 1.3: --> $tls13_cipher1\n"
tls_sockets "04" "13,01, 13,02, 13,03, 13,04, 13,05, 00,ff"
[[ $? -ne 0 ]] && ret=1 && prln_fixme "something weird happened around line $((LINENO - 1))"
cp "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" $TMPFILE
tls13_cipher2=$(get_cipher $TMPFILE)
debugme tm_out "TLS 1.3: --> $tls13_cipher2\n"
[[ $tls13_cipher1 == $tls13_cipher2 ]] && has_tls13_cipher_order=true
fi
# Check whether the server has a cipher order for SSLv3 - TLSv1.2
if [[ $(has_server_protocol "tls1_2") -ne 0 ]] && [[ $(has_server_protocol "tls1_1") -ne 0 ]] && \
[[ $(has_server_protocol "tls1") -ne 0 ]] && [[ $(has_server_protocol "ssl3") -ne 0 ]]; then
# Based on testing performed by determine_optimal_sockets_params(), it is believed that
# this server does not offer SSLv3 - TLSv1.2.
has_cipher_order="$has_tls13_cipher_order"
elif [[ "$OPTIMAL_PROTO" != -ssl2 ]]; then
if [[ -n "$STARTTLS_OPTIMAL_PROTO" ]]; then
[[ ! "$STARTTLS_OPTIMAL_PROTO" =~ ssl ]] && addcmd2="$SNI"
[[ "$STARTTLS_OPTIMAL_PROTO" != -tls1_3 ]] && addcmd2+=" $STARTTLS_OPTIMAL_PROTO"
else
addcmd2="-no_ssl2 $SNI"
fi
[[ $DEBUG -ge 4 ]] && echo -e "\n Forward: ${list_fwd}"
$OPENSSL s_client $(s_client_options "$STARTTLS -cipher $list_fwd $BUGS -connect $NODEIP:$PORT $PROXY $addcmd2") </dev/null 2>$ERRFILE >$TMPFILE
if ! sclient_connect_successful $? $TMPFILE; then
list_fwd="$(actually_supported_osslciphers $list_fwd '' '-tls1')"
pr_warning "no matching cipher in this list found (pls report this): "
outln "$list_fwd . "
fileout "$jsonID" "WARN" "Could not determine server cipher order, no matching cipher in list found (pls report this): $list_fwd"
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
# we assume the problem is with testing here but it could be also the server side
fi
cipher1=$(get_cipher $TMPFILE) # cipher1 from 1st serverhello
debugme tm_out "1 --> $cipher1\n"
# second client hello with reverse list
[[ $DEBUG -ge 4 ]] && echo -e "\n Reverse: ${list_reverse}"
$OPENSSL s_client $(s_client_options "$STARTTLS -cipher $list_reverse $BUGS -connect $NODEIP:$PORT $PROXY $addcmd2") </dev/null 2>>$ERRFILE >$TMPFILE
# first handshake worked above so no error handling here
cipher2=$(get_cipher $TMPFILE) # cipher2 from 2nd serverhello
debugme tm_out "2 --> $cipher2\n"
[[ $cipher1 == $cipher2 ]] && has_cipher_order=true
fi
debugme echo "has_cipher_order: $has_cipher_order"
debugme echo "has_tls13_cipher_order: $has_tls13_cipher_order"
if "$TLS13_ONLY" && ! "$has_tls13_cipher_order"; then
out "no (TLS 1.3 only)"
limitedsense=" (limited sense as client will pick)"
fileout "$jsonID" "INFO" "not a cipher order for TLS 1.3 configured"
elif ! "$has_cipher_order" && ! "$has_tls13_cipher_order"; then
# server used the different ends (ciphers) from the client hello
pr_svrty_high "no (NOT ok)"
limitedsense=" (limited sense as client will pick)"
fileout "$jsonID" "HIGH" "NOT a cipher order configured"
elif "$has_cipher_order" && ! "$has_tls13_cipher_order" && [[ "$default_proto" == TLSv1.3 ]]; then
pr_svrty_good "yes (OK)"; out " -- only for < TLS 1.3"
fileout "$jsonID" "OK" "server -- TLS 1.3 client determined"
elif ! "$has_cipher_order" && "$has_tls13_cipher_order"; then
pr_svrty_high "no (NOT ok)"; out " -- only for TLS 1.3"
fileout "$jsonID" "HIGH" "server -- < TLS 1.3 client determined"
else
if "$has_tls13_cipher_order"; then
if "$TLS13_ONLY"; then
out "yes (TLS 1.3 only)"
fileout "$jsonID" "INFO" "server (TLS 1.3)"
else
pr_svrty_best "yes (OK)"
out " -- TLS 1.3 and below"
fileout "$jsonID" "OK" "server"
fi
else
# we don't have TLS 1.3 at all
pr_svrty_best "yes (OK)"
fileout "$jsonID" "OK" "server"
fi
fi
outln
pr_bold " Negotiated protocol "
jsonID="protocol_negotiated"
case "$default_proto" in
*TLSv1.3)
prln_svrty_best $default_proto
fileout "$jsonID" "OK" "Default protocol TLS1.3"
;;
*TLSv1.2)
prln_svrty_best $default_proto
fileout "$jsonID" "OK" "Default protocol TLS1.2"
;;
*TLSv1.1)
prln_svrty_low $default_proto
fileout "$jsonID" "LOW" "Default protocol TLS1.1"
;;
*TLSv1)
prln_svrty_low $default_proto
fileout "$jsonID" "LOW" "Default protocol TLS1.0"
;;
*SSLv2)
prln_svrty_critical $default_proto
fileout "$jsonID" "CRITICAL" "Default protocol SSLv2"
;;
*SSLv3)
prln_svrty_critical $default_proto
fileout "$jsonID" "CRITICAL" "Default protocol SSLv3"
;;
"")
pr_warning "default proto empty"
if [[ $OSSL_VER == 1.0.2* ]]; then
outln " (Hint: if IIS6 give OpenSSL 1.0.1 a try)"
fileout "$jsonID" "WARN" "Default protocol empty (Hint: if IIS6 give OpenSSL 1.0.1 a try)"
else
outln
fileout "$jsonID" "WARN" "Default protocol empty"
fi
ret=1
;;
*)
pr_warning "FIXME line $LINENO: $default_proto"
fileout "$jsonID" "WARN" "FIXME line $LINENO: $default_proto"
ret=1
;;
esac
pr_bold " Negotiated cipher "
jsonID="cipher_negotiated"
# restore file from above
[[ "$default_proto" == TLSv1.3 ]] && cp "$TEMPDIR/$NODEIP.parse_tls13_serverhello.txt" $TMPFILE
cipher1=$(get_cipher $TMPFILE)
# Sanity check: Handshake with no ciphers and one with forward list didn't overlap
if [[ "$cipher0" != $cipher1 ]]; then
limitedsense=" (matching cipher in list missing)"
fi
if [[ "$DISPLAY_CIPHERNAMES" =~ openssl ]] && ( [[ "$cipher1" == TLS_* ]] || [[ "$cipher1" == SSL_* ]] ); then
default_cipher="$(rfc2openssl "$cipher1")"
elif [[ "$DISPLAY_CIPHERNAMES" =~ rfc ]] && [[ "$cipher1" != TLS_* ]] && [[ "$cipher1" != SSL_* ]]; then
default_cipher="$(openssl2rfc "$cipher1")"
fi
[[ -z "$default_cipher" ]] && default_cipher="$cipher1"
pr_cipher_quality "$default_cipher"
case $? in
1) fileout "$jsonID" "CRITICAL" "$default_cipher$(read_dhbits_from_file "$TMPFILE" "string") $limitedsense"
;;
2) fileout "$jsonID" "HIGH" "$default_cipher$(read_dhbits_from_file "$TMPFILE" "string") $limitedsense"
;;
3) fileout "$jsonID" "MEDIUM" "$default_cipher$(read_dhbits_from_file "$TMPFILE" "string") $limitedsense"
;;
6|7) fileout "$jsonID" "OK" "$default_cipher$(read_dhbits_from_file "$TMPFILE" "string") $limitedsense"
;; # best ones
4) fileout "$jsonID" "LOW" "$default_cipher$(read_dhbits_from_file "$TMPFILE" "string") (cbc) $limitedsense"
;; # it's CBC. --> lucky13
0) pr_warning "default cipher empty" ;
if [[ $OSSL_VER == 1.0.2* ]]; then
out " (Hint: if IIS6 give OpenSSL 1.0.1 a try)"
fileout "$jsonID" "WARN" "Default cipher empty (if IIS6 give OpenSSL 1.0.1 a try) $limitedsense"
else
fileout "$jsonID" "WARN" "Default cipher empty $limitedsense"
fi
ret=1
;;
*) fileout "$jsonID" "INFO" "$default_cipher$(read_dhbits_from_file "$TMPFILE" "string") $limitedsense"
;;
esac
read_dhbits_from_file "$TMPFILE"
if [[ "$cipher0" != $cipher1 ]]; then
pr_warning " -- inconclusive test, matching cipher in list missing"
outln ", better see below"
#FIXME: This is ugly but the best we can do before rewrite this section
else
outln "$limitedsense"
fi
"$FAST" && using_sockets=false
[[ $TLS_NR_CIPHERS == 0 ]] && using_sockets=false
pr_bold " Cipher per protocol"
outln "\n" && neat_header
while read proto_ossl proto_hex proto_txt; do
pr_underline "$(printf -- "%b" "$proto_txt")"
# TODO: If there's no cipher we should consider not displaying the text in the round brackets)
# the following takes care of that but only if we know the protocol is not supported
if [[ $(has_server_protocol "$proto_ossl") -eq 1 ]]; then
outln "\n - "
continue
fi
# TODO: Also the fact that a protocol is not supported seems not to be saved by cipher_pref_check()
# (./testssl.sh --wide -p -P -E vs ./testssl.sh --wide -P -E )
if [[ $proto_ossl == ssl2 ]] || \
( [[ $proto_ossl != tls1_3 ]] && ! "$has_cipher_order" ]] ) || \
( [[ $proto_ossl == tls1_3 ]] && ! "$has_tls13_cipher_order" ]] ); then
if [[ $proto_ossl == ssl2 ]]; then
outln " (listed by strength)"
elif [[ $proto_ossl == tls1_3 ]]; then
outln " (no server order, thus listed by strength)"
else
prln_svrty_high " (no server order, thus listed by strength)"
fi
ciphers_by_strength "-$proto_ossl" "$proto_hex" "$proto_txt" "$using_sockets" "true"
else
outln " (server order)"
cipher_pref_check "$proto_ossl" "$proto_hex" "$proto_txt" "$using_sockets" "true"
fi
done <<< "$(tm_out " ssl2 22 SSLv2\n ssl3 00 SSLv3\n tls1 01 TLSv1\n tls1_1 02 TLSv1.1\n tls1_2 03 TLSv1.2\n tls1_3 04 TLSv1.3\n")"
outln
return $ret
# end of run_server_preference()
}
# arg1: true if the list that is returned does not need to be ordered by preference.
check_tls12_pref() {
local unordered_list_ok="$1"
local batchremoved="-CAMELLIA:-IDEA:-KRB5:-PSK:-SRP:-aNULL:-eNULL"
local batchremoved_success=false
local tested_cipher="" cipher ciphers_to_test
local order=""
local -i nr_ciphers_found_r1=0 nr_ciphers_found_r2=0
while true; do
$OPENSSL s_client $(s_client_options "$STARTTLS -tls1_2 $BUGS -cipher "ALL$tested_cipher:$batchremoved" -connect $NODEIP:$PORT $PROXY $SNI") </dev/null 2>>$ERRFILE >$TMPFILE
if sclient_connect_successful $? $TMPFILE ; then
cipher=$(get_cipher $TMPFILE)
order+=" $cipher"
tested_cipher="$tested_cipher:-$cipher"
nr_ciphers_found_r1+=1
"$FAST" && break
else
debugme tmln_out "A: $tested_cipher"
break
fi
done
batchremoved="${batchremoved//-/}"
while true; do
# no ciphers from "ALL$tested_cipher:$batchremoved" left
# now we check $batchremoved, and remove the minus signs first:
$OPENSSL s_client $(s_client_options "$STARTTLS -tls1_2 $BUGS -cipher "$batchremoved" -connect $NODEIP:$PORT $PROXY $SNI") </dev/null 2>>$ERRFILE >$TMPFILE
if sclient_connect_successful $? $TMPFILE ; then
batchremoved_success=true # signals that we have some of those ciphers and need to put everything together later on
cipher=$(get_cipher $TMPFILE)
order+=" $cipher"
batchremoved="$batchremoved:-$cipher"
nr_ciphers_found_r1+=1
debugme tmln_out "B1: $batchremoved"
"$FAST" && break
else
debugme tmln_out "B2: $batchremoved"
break
# nothing left with batchremoved ciphers, we need to put everything together
fi
done
if "$batchremoved_success" && ! "$unordered_list_ok"; then
# now we combine the two cipher sets from both while loops
combined_ciphers="$order"
order="" ; tested_cipher=""
while true; do
ciphers_to_test=""
for cipher in $combined_ciphers; do
[[ ! "$tested_cipher:" =~ :-$cipher: ]] && ciphers_to_test+=":$cipher"
done
[[ -z "$ciphers_to_test" ]] && break
$OPENSSL s_client $(s_client_options "$STARTTLS -tls1_2 $BUGS -cipher "${ciphers_to_test:1}" -connect $NODEIP:$PORT $PROXY $SNI") </dev/null 2>>$ERRFILE >$TMPFILE
if sclient_connect_successful $? $TMPFILE ; then
cipher=$(get_cipher $TMPFILE)
order+=" $cipher"
tested_cipher="$tested_cipher:-$cipher"
nr_ciphers_found_r2+=1
"$FAST" && break
else
# This shouldn't happen.
break
fi
done
if "$FAST" && [[ $nr_ciphers_found_r2 -ne 1 ]]; then
prln_fixme "something weird happened around line $((LINENO - 14))"
return 1
elif ! "$FAST" && [[ $nr_ciphers_found_r2 -ne $nr_ciphers_found_r1 ]]; then
prln_fixme "something weird happened around line $((LINENO - 16))"
return 1
fi
fi
tm_out "$order"
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
# At the moment only called from run_server_preference()
cipher_pref_check() {
local proto="$1" proto_hex="$2" proto_text="$3"
local using_sockets="$4"
local wide="$5" # at the moment always = true
local tested_cipher cipher order rfc_cipher rfc_order
local -i i nr_ciphers nr_nonossl_ciphers num_bundles bundle_size bundle end_of_bundle success
local -i nr_ciphers_found
local hexc ciphers_to_test
local -a normalized_hexcode ciph kx enc export2 sigalg
local -a rfc_ciph hexcode ciphers_found="" ciphers_found2
local -a -i index
local ciphers_found_with_sockets
order=""; ciphers_found_with_sockets=false
if [[ $proto == ssl3 ]] && ! "$HAS_SSL3" && ! "$using_sockets"; then
prln_local_problem "$OPENSSL doesn't support \"s_client -ssl3\"";
return 0
fi
if [[ $proto == tls1_3 ]] && ! "$HAS_TLS13" && ! "$using_sockets"; then
prln_local_problem "$OPENSSL doesn't support \"s_client -tls1_3\"";
return 0
fi
if ( [[ $proto != tls1_3 ]] || "$HAS_TLS13" ) && ( [[ $proto != ssl3 ]] || "$HAS_SSL3" ); then
if [[ $proto == tls1_2 ]] && "$SERVER_SIZE_LIMIT_BUG"; then
order="$(check_tls12_pref "$wide")"
[[ "${order:0:1}" == \ ]] && order="${order:1}"
ciphers_found="$order"
fi
if "$wide" || [[ -z "$order" ]]; then
tested_cipher=""; order=""; nr_ciphers_found=0
while true; do
if [[ $proto != tls1_3 ]]; then
if [[ -n "$ciphers_found" ]]; then
ciphers_to_test=""
for cipher in $ciphers_found; do
[[ ! "$tested_cipher:" =~ :-$cipher: ]] && ciphers_to_test+=":$cipher"
done
[[ -z "$ciphers_to_test" ]] && break
ciphers_to_test="-cipher ${ciphers_to_test:1}"
else
ciphers_to_test="-cipher ALL:COMPLEMENTOFALL${tested_cipher}"
fi
else
ciphers_to_test=""
for cipher in $(colon_to_spaces "$TLS13_OSSL_CIPHERS"); do
[[ ! "$tested_cipher:" =~ :-$cipher: ]] && ciphers_to_test+=":$cipher"
done
[[ -z "$ciphers_to_test" ]] && break
ciphers_to_test="-ciphersuites ${ciphers_to_test:1}"
fi
$OPENSSL s_client $(s_client_options "$STARTTLS -"$proto" $BUGS $ciphers_to_test -connect $NODEIP:$PORT $PROXY $SNI") </dev/null 2>>$ERRFILE >$TMPFILE
sclient_connect_successful $? $TMPFILE || break
cipher=$(get_cipher $TMPFILE)
[[ -z "$cipher" ]] && break
order+="$cipher "
tested_cipher+=":-"$cipher
"$FAST" && break
if "$wide"; then
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
[[ "$cipher" == ${TLS_CIPHER_OSSL_NAME[i]} ]] && break
done
[[ $i -eq $TLS_NR_CIPHERS ]] && continue
normalized_hexcode[nr_ciphers_found]="$(normalize_ciphercode "${TLS_CIPHER_HEXCODE[i]}")"
ciph[nr_ciphers_found]="${TLS_CIPHER_OSSL_NAME[i]}"
kx[nr_ciphers_found]="${TLS_CIPHER_KX[i]}"
[[ $proto == tls1_3 ]] && kx[nr_ciphers_found]="$(read_dhtype_from_file $TMPFILE)"
if ( [[ ${kx[nr_ciphers_found]} == Kx=ECDH ]] || [[ ${kx[nr_ciphers_found]} == Kx=DH ]] || [[ ${kx[nr_ciphers_found]} == Kx=EDH ]] ); then
kx[nr_ciphers_found]+=" $(read_dhbits_from_file "$TMPFILE" quiet)"
fi
enc[nr_ciphers_found]="${TLS_CIPHER_ENC[i]}"
export2[nr_ciphers_found]="${TLS_CIPHER_EXPORT[i]}"
sigalg[nr_ciphers_found]=""
"$SHOW_SIGALGO" && grep -q "\-\-\-\-\-BEGIN CERTIFICATE\-\-\-\-\-" $TMPFILE && \
sigalg[nr_ciphers_found]="$(read_sigalg_from_file "$TMPFILE")"
nr_ciphers_found+=1
fi
done
fi
fi
nr_nonossl_ciphers=0
if "$using_sockets"; then
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
ciphers_found[i]=false
hexc="${TLS_CIPHER_HEXCODE[i]}"
if [[ ${#hexc} -eq 9 ]]; then
if [[ " $order " =~ " ${TLS_CIPHER_OSSL_NAME[i]} " ]]; then
ciphers_found[i]=true
else
ciphers_found2[nr_nonossl_ciphers]=false
hexcode[nr_nonossl_ciphers]="${hexc:2:2},${hexc:7:2}"
rfc_ciph[nr_nonossl_ciphers]="${TLS_CIPHER_RFC_NAME[i]}"
index[nr_nonossl_ciphers]=$i
# Only test ciphers that are relevant to the protocol.
if [[ $proto == tls1_3 ]]; then
[[ "${hexc:2:2}" == 13 ]] && nr_nonossl_ciphers+=1
elif [[ $proto == tls1_2 ]]; then
[[ "${hexc:2:2}" != 13 ]] && nr_nonossl_ciphers+=1
elif [[ ! "${TLS_CIPHER_RFC_NAME[i]}" =~ SHA256 ]] && \
[[ ! "${TLS_CIPHER_RFC_NAME[i]}" =~ SHA384 ]] && \
[[ "${TLS_CIPHER_RFC_NAME[i]}" != *"_CCM" ]] && \
[[ "${TLS_CIPHER_RFC_NAME[i]}" != *"_CCM_8" ]]; then
nr_nonossl_ciphers+=1
fi
fi
fi
done
fi
if [[ $nr_nonossl_ciphers -eq 0 ]]; then
num_bundles=0
elif [[ $proto != tls1_2 ]] || ! "$SERVER_SIZE_LIMIT_BUG"; then
num_bundles=1
bundle_size=$nr_nonossl_ciphers
else
num_bundles=$nr_nonossl_ciphers/128
[[ $((nr_nonossl_ciphers%128)) -ne 0 ]] && num_bundles+=1
bundle_size=$nr_nonossl_ciphers/$num_bundles
[[ $((nr_nonossl_ciphers%num_bundles)) -ne 0 ]] && bundle_size+=1
fi
for (( bundle=0; bundle < num_bundles; bundle++ )); do
end_of_bundle=$(( (bundle+1)*bundle_size ))
[[ $end_of_bundle -gt $nr_nonossl_ciphers ]] && end_of_bundle=$nr_nonossl_ciphers
while true; do
ciphers_to_test=""
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
! "${ciphers_found2[i]}" && ciphers_to_test+=", ${hexcode[i]}"
done
[[ -z "$ciphers_to_test" ]] && break
tls_sockets "$proto_hex" "${ciphers_to_test:2}, 00,ff" "ephemeralkey"
[[ $? -ne 0 ]] && break
cipher=$(get_cipher "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
[[ "$cipher" == ${rfc_ciph[i]} ]] && ciphers_found2[i]=true && break
done
i=${index[i]}
ciphers_found[i]=true
ciphers_found_with_sockets=true
if [[ $proto != tls1_2 ]] || ! "$SERVER_SIZE_LIMIT_BUG"; then
# Throw out the results found so far and start over using just sockets
bundle=$num_bundles
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
ciphers_found[i]=true
done
break
fi
done
done
# If additional ciphers were found using sockets and there is no
# SERVER_SIZE_LIMIT_BUG, then just use sockets to find the cipher order.
# If there is a SERVER_SIZE_LIMIT_BUG, then use sockets to find the cipher
# order, but starting with the list of ciphers supported by the server.
if "$ciphers_found_with_sockets"; then
order=""; nr_ciphers=0; nr_ciphers_found=0
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
hexc="${TLS_CIPHER_HEXCODE[i]}"
if "${ciphers_found[i]}" && [[ ${#hexc} -eq 9 ]]; then
ciphers_found2[nr_ciphers]=false
hexcode[nr_ciphers]="${hexc:2:2},${hexc:7:2}"
rfc_ciph[nr_ciphers]="${TLS_CIPHER_RFC_NAME[i]}"
if [[ $proto == tls1_3 ]]; then
[[ "${hexc:2:2}" == "13" ]] && nr_ciphers+=1
elif [[ $proto == tls1_2 ]]; then
[[ "${hexc:2:2}" != "13" ]] && nr_ciphers+=1
elif [[ ! "${TLS_CIPHER_RFC_NAME[i]}" =~ SHA256 ]] && \
[[ ! "${TLS_CIPHER_RFC_NAME[i]}" =~ SHA384 ]] && \
[[ "${TLS_CIPHER_RFC_NAME[i]}" != *"_CCM" ]] && \
[[ "${TLS_CIPHER_RFC_NAME[i]}" != *"_CCM_8" ]]; then
nr_ciphers+=1
fi
fi
done
while true; do
ciphers_to_test=""
for (( i=0; i < nr_ciphers; i++ )); do
! "${ciphers_found2[i]}" && ciphers_to_test+=", ${hexcode[i]}"
done
[[ -z "$ciphers_to_test" ]] && break
if "$wide" && "$SHOW_SIGALGO"; then
tls_sockets "$proto_hex" "${ciphers_to_test:2}, 00,ff" "all"
else
tls_sockets "$proto_hex" "${ciphers_to_test:2}, 00,ff" "ephemeralkey"
fi
[[ $? -ne 0 ]] && break
cipher=$(get_cipher "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
for (( i=0; i < nr_ciphers; i++ )); do
[[ "$cipher" == ${rfc_ciph[i]} ]] && ciphers_found2[i]=true && break
done
if "$wide"; then
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
[[ "$cipher" == ${TLS_CIPHER_RFC_NAME[i]} ]] && break
done
[[ $i -eq $TLS_NR_CIPHERS ]] && continue
normalized_hexcode[nr_ciphers_found]="$(normalize_ciphercode "${TLS_CIPHER_HEXCODE[i]}")"
ciph[nr_ciphers_found]="${TLS_CIPHER_OSSL_NAME[i]}"
kx[nr_ciphers_found]="${TLS_CIPHER_KX[i]}"
[[ $proto == tls1_3 ]] && kx[nr_ciphers_found]="$(read_dhtype_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")"
if ( [[ ${kx[nr_ciphers_found]} == Kx=ECDH ]] || [[ ${kx[nr_ciphers_found]} == Kx=DH ]] || [[ ${kx[nr_ciphers_found]} == Kx=EDH ]] ); then
kx[nr_ciphers_found]+=" $(read_dhbits_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" quiet)"
fi
enc[nr_ciphers_found]="${TLS_CIPHER_ENC[i]}"
export2[nr_ciphers_found]="${TLS_CIPHER_EXPORT[i]}"
sigalg[nr_ciphers_found]=""
"$SHOW_SIGALGO" && [[ -r "$HOSTCERT" ]] && \
sigalg[nr_ciphers_found]="$(read_sigalg_from_file "$HOSTCERT")"
nr_ciphers_found+=1
fi
if [[ "$DISPLAY_CIPHERNAMES" =~ openssl ]] && [[ $TLS_NR_CIPHERS -ne 0 ]]; then
cipher="$(rfc2openssl "$cipher")"
# If there is no OpenSSL name for the cipher, then use the RFC name
[[ -z "$cipher" ]] && cipher=$(get_cipher "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
fi
order+="$cipher "
done
elif [[ -n "$order" ]] && [[ "$DISPLAY_CIPHERNAMES" =~ rfc ]]; then
rfc_order=""
while read -d " " cipher; do
rfc_cipher="$(openssl2rfc "$cipher")"
if [[ -n "$rfc_cipher" ]]; then
rfc_order+="$rfc_cipher "
else
rfc_order+="$cipher "
fi
done <<< "$order"
order="$rfc_order"
fi
if [[ -n "$order" ]]; then
add_proto_offered "$proto" yes
if "$wide"; then
for (( i=0 ; i<nr_ciphers_found; i++ )); do
neat_list "${normalized_hexcode[i]}" "${ciph[i]}" "${kx[i]}" "${enc[i]}" "${export2[i]}" "true"
outln "${sigalg[i]}"
id="cipher-${proto}_${normalized_hexcode[i]}"
fileout "$id" "$(get_cipher_quality_severity "${ciph[i]}")" "$proto_text $(neat_list "${normalized_hexcode[i]}" "${ciph[i]}" "${kx[i]}" "${enc[i]}" "${export2[i]}")"
done
else
outln
out "$(printf " %-10s " "$proto_text: ")"
if [[ "$COLOR" -le 2 ]]; then
out "$(out_row_aligned_max_width "$order" " " $TERM_WIDTH)"
else
out_row_aligned_max_width_by_entry "$order" " " $TERM_WIDTH pr_cipher_quality
fi
fi
fileout "cipherorder_${proto_text//./_}" "INFO" "$order"
else
# Order doesn't contain any ciphers, so we can safely unset the protocol and put a dash out
add_proto_offered "$proto" no
outln " -"
fi
tmpfile_handle ${FUNCNAME[0]}-$proto.txt
return 0
}
# arg1 is OpenSSL s_client parameter or empty
#
get_host_cert() {
local tmpvar=$TEMPDIR/${FUNCNAME[0]}.txt # change later to $TMPFILE
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI $1") 2>/dev/null </dev/null >$tmpvar
if sclient_connect_successful $? $tmpvar; then
awk '/-----BEGIN/,/-----END/ { print $0 }' $tmpvar >$HOSTCERT
return 0
else
if [[ -z "$1" ]]; then
prln_warning "could not retrieve host certificate!"
fileout "host_certificate_Problem" "WARN" "Could not retrieve host certificate!"
fi
return 1
fi
#tmpfile_handle ${FUNCNAME[0]}.txt
#return $((${PIPESTATUS[0]} + ${PIPESTATUS[1]}))
}
verify_retcode_helper() {
local ret=0
local -i retcode=$1
case $retcode in
# codes from ./doc/apps/verify.pod | verify(1ssl)
44) tm_out "(different CRL scope)" ;; # X509_V_ERR_DIFFERENT_CRL_SCOPE
26) tm_out "(unsupported certificate purpose)" ;; # X509_V_ERR_INVALID_PURPOSE
24) tm_out "(certificate unreadable)" ;; # X509_V_ERR_INVALID_CA
23) tm_out "(certificate revoked)" ;; # X509_V_ERR_CERT_REVOKED
21) tm_out "(chain incomplete, only 1 cert provided)" ;; # X509_V_ERR_UNABLE_TO_VERIFY_LEAF_SIGNATURE
20) tm_out "(chain incomplete)" ;; # X509_V_ERR_UNABLE_TO_GET_ISSUER_CERT_LOCALLY
19) tm_out "(self signed CA in chain)" ;; # X509_V_ERR_SELF_SIGNED_CERT_IN_CHAIN
18) tm_out "(self signed)" ;; # X509_V_ERR_DEPTH_ZERO_SELF_SIGNED_CERT
10) tm_out "(expired)" ;; # X509_V_ERR_CERT_HAS_EXPIRED
9) tm_out "(not yet valid)" ;; # X509_V_ERR_CERT_NOT_YET_VALID
2) tm_out "(issuer cert missing)" ;; # X509_V_ERR_UNABLE_TO_GET_ISSUER_CERT
*) ret=1 ; tm_out " (unknown, pls report) $1" ;;
esac
return $ret
}
# arg1: number of certificate if provided >1
determine_trust() {
local jsonID="$1"
local json_postfix="$2"
local -i i=1
local -i num_ca_bundles=0
local bundle_fname=""
local -a certificate_file verify_retcode trust
local ok_was=""
local notok_was=""
local all_ok=true
local some_ok=false
local code
local ca_bundles=""
local spaces=" "
local -i certificates_provided=1+$(grep -c "\-\-\-\-\-BEGIN CERTIFICATE\-\-\-\-\-" $TEMPDIR/intermediatecerts.pem)
local addtl_warning
# If $json_postfix is not empty, then there is more than one certificate
# and the output should should be indented by two more spaces.
[[ -n $json_postfix ]] && spaces=" "
case $OSSL_VER_MAJOR.$OSSL_VER_MINOR in
1.0.2|1.1.0|1.1.1|2.[1-9].*|3.*) # 2.x is LibreSSL. 2.1.1 was tested to work, below is not sure
:
;;
*) addtl_warning="Your $OPENSSL <= 1.0.2 might be too unreliable to determine trust"
fileout "${jsonID}${json_postfix}" "WARN" "$addtl_warning"
addtl_warning="(${addtl_warning})"
;;
esac
debugme tmln_out
# if you run testssl.sh from a different path /you can set either TESTSSL_INSTALL_DIR or CA_BUNDLES_PATH to find the CA BUNDLES
if [[ -z "$CA_BUNDLES_PATH" ]]; then
ca_bundles="$TESTSSL_INSTALL_DIR/etc/*.pem"
else
ca_bundles="$CA_BUNDLES_PATH/*.pem"
fi
for bundle_fname in $ca_bundles; do
certificate_file[i]=$(basename ${bundle_fname//.pem})
if [[ ! -r $bundle_fname ]]; then
prln_warning "\"$bundle_fname\" cannot be found / not readable"
return 1
fi
debugme printf -- " %-12s" "${certificate_file[i]}"
# Set SSL_CERT_DIR to /dev/null so that $OPENSSL verify will only use certificates in $bundle_fname
# in a subshell because that should be valid here only
(export SSL_CERT_DIR="/dev/null"; export SSL_CERT_FILE="/dev/null"
if [[ $certificates_provided -ge 2 ]]; then
$OPENSSL verify -purpose sslserver -CAfile <(cat $ADDTL_CA_FILES "$bundle_fname") -untrusted $TEMPDIR/intermediatecerts.pem $HOSTCERT >$TEMPDIR/${certificate_file[i]}.1 2>$TEMPDIR/${certificate_file[i]}.2
else
$OPENSSL verify -purpose sslserver -CAfile <(cat $ADDTL_CA_FILES "$bundle_fname") $HOSTCERT >$TEMPDIR/${certificate_file[i]}.1 2>$TEMPDIR/${certificate_file[i]}.2
fi)
verify_retcode[i]=$(awk '/error [1-9][0-9]? at [0-9]+ depth lookup:/ { if (!found) {print $2; found=1} }' $TEMPDIR/${certificate_file[i]}.1 $TEMPDIR/${certificate_file[i]}.2)
[[ -z "${verify_retcode[i]}" ]] && verify_retcode[i]=0
if [[ ${verify_retcode[i]} -eq 0 ]]; then
trust[i]=true
some_ok=true
[[ -z "$GOOD_CA_BUNDLE" ]] && GOOD_CA_BUNDLE="$bundle_fname"
debugme tm_svrty_good "Ok "
debugme tmln_out "${verify_retcode[i]}"
else
trust[i]=false
all_ok=false
debugme tm_svrty_high "not trusted "
debugme tmln_out "${verify_retcode[i]}"
fi
((i++))
done
num_ca_bundles=$((i - 1))
debugme tm_out " "
if "$all_ok"; then
# all stores ok
pr_svrty_good "Ok "; pr_warning "$addtl_warning"
# we did to stdout the warning above already, so we could stay here with OK:
fileout "${jsonID}${json_postfix}" "OK" "passed. $addtl_warning"
else
pr_svrty_critical "NOT ok"
if ! "$some_ok"; then
# ALL failed (we assume with the same issue), we're displaying the reason
out " "
code="$(verify_retcode_helper "${verify_retcode[1]}")"
if [[ "$code" =~ "pls report" ]]; then
pr_warning "$code"
else
out "$code"
fi
fileout "${jsonID}${json_postfix}" "CRITICAL" "failed $code. $addtl_warning"
set_grade_cap "T" "Issues with the chain of trust $code"
else
# alt least one ok and other(s) not ==> display the culprit store(s)
if "$some_ok"; then
pr_svrty_critical ":"
for (( i=1; i<=num_ca_bundles; i++ )); do
if ${trust[i]}; then
ok_was="${certificate_file[i]} $ok_was"
else
pr_svrty_high " ${certificate_file[i]} "
code="$(verify_retcode_helper "${verify_retcode[i]}")"
if [[ "$code" =~ "pls report" ]]; then
pr_warning "$code"
else
out "$code"
fi
notok_was="${certificate_file[i]} $code $notok_was"
if ! [[ ${certificate_file[i]} =~ Java ]]; then
# Exemption for Java AND rating, as this store doesn't seem to be as complete.
# We won't penelize this but we still need to raise a red flag. See #1648
set_grade_cap "T" "Issues with chain of trust $code"
fi
fi
done
outln
# lf + green ones
[[ "$DEBUG" -eq 0 ]] && tm_out "$spaces"
pr_svrty_good "OK: $ok_was"
fi
fileout "${jsonID}${json_postfix}" "CRITICAL" "Some certificate trust checks failed -> $notok_was $addtl_warning, OK -> $ok_was"
fi
[[ -n "$addtl_warning" ]] && out "\n$spaces" && pr_warning "$addtl_warning"
fi
outln
return 0
}
# not handled: Root CA supplied ("contains anchor" in SSLlabs terminology)
tls_time() {
local difftime
local spaces=" "
local jsonID="TLS_timestamp"
pr_bold " TLS clock skew" ; out "$spaces"
if ( [[ "$STARTTLS_PROTOCOL" =~ ldap ]] || [[ "$STARTTLS_PROTOCOL" =~ irc ]] ); then
prln_local_problem "STARTTLS/$STARTTLS_PROTOCOL and --ssl-native collide here"
return 1
fi
TLS_DIFFTIME_SET=true # this is a switch whether we want to measure the remote TLS_TIME
tls_sockets "01" "$TLS_CIPHER" # try first TLS 1.0 (most frequently used protocol)
[[ -z "$TLS_TIME" ]] && tls_sockets "03" "$TLS12_CIPHER" # TLS 1.2
[[ -z "$TLS_TIME" ]] && tls_sockets "02" "$TLS_CIPHER" # TLS 1.1
[[ -z "$TLS_TIME" ]] && tls_sockets "00" "$TLS_CIPHER" # SSL 3
if [[ -n "$TLS_TIME" ]]; then # nothing returned a time!
difftime=$((TLS_TIME - TLS_NOW)) # TLS_NOW has been set in tls_sockets()
if [[ "${#difftime}" -gt 5 ]]; then
# openssl >= 1.0.1f fills this field with random values! --> good for possible fingerprint
out "Random values, no fingerprinting possible "
fileout "$jsonID" "INFO" "random"
else
[[ $difftime != "-"* ]] && [[ $difftime != "0" ]] && difftime="+$difftime"
out "$difftime"; out " sec from localtime";
fileout "$jsonID" "INFO" "off by $difftime seconds from your localtime"
fi
debugme tm_out "$TLS_TIME"
outln
else
outln "SSLv3 through TLS 1.2 didn't return a timestamp"
fileout "$jsonID" "INFO" "None returned by SSLv3 through TLSv1.2"
fi
TLS_DIFFTIME_SET=false # reset the switch to save calls to date and friend in tls_sockets()
return 0
}
# core function determining whether handshake succeeded or not
# arg1: return value of "openssl s_client connect"
# arg2: temporary file with the server hello
# returns 0 if connect was successful, 1 if not
#
sclient_connect_successful() {
local server_hello="$(cat -v "$2")"
local re='Master-Key: ([^\
]*)'
[[ $1 -eq 0 ]] && return 0
if [[ "$server_hello" =~ $re ]]; then
[[ -n "${BASH_REMATCH[1]}" ]] && return 0
fi
[[ "$server_hello" =~ (New|Reused)", "(SSLv[23]|TLSv1(\.[0-3])?(\/SSLv3)?)", Cipher is "([A-Z0-9]+-[A-Za-z0-9\-]+|TLS_[A-Za-z0-9_]+) ]] && return 0
# what's left now is: master key empty and Session-ID not empty
# ==> probably client-based auth with x509 certificate. We handle that at other places
#
# For robustness we also detected here network / server connectivity problems:
# Just need to check whether $TMPFILE=$2 is empty
if [[ ! -s "$2" ]]; then
((NR_OSSL_FAIL++))
connectivity_problem $NR_OSSL_FAIL $MAX_OSSL_FAIL "openssl s_client connect problem" "repeated openssl s_client connect problem, doesn't make sense to continue"
fi
return 1
}
extract_new_tls_extensions() {
local tls_extensions
# this is not beautiful (grep+sed)
# but maybe we should just get the ids and do a private matching, according to
# https://www.iana.org/assignments/tls-extensiontype-values/tls-extensiontype-values.xhtml
tls_extensions=$(grep -a 'TLS server extension ' "$1" | \
sed -e 's/TLS server extension //g' -e 's/\" (id=/\/#/g' \
-e 's/,.*$/,/g' -e 's/),$/\"/g' \
-e 's/elliptic curves\/#10/supported_groups\/#10/g')
tls_extensions=$(echo $tls_extensions) # into one line
if [[ -n "$tls_extensions" ]]; then
# check to see if any new TLS extensions were returned and add any new ones to TLS_EXTENSIONS
while read -d "\"" -r line; do
if [[ $line != "" ]] && [[ ! "$TLS_EXTENSIONS" =~ "$line" ]]; then
#FIXME: This is a string of quoted strings, so this seems to determine the output format already. Better e.g. would be an array
TLS_EXTENSIONS+=" \"${line}\""
fi
done <<<$tls_extensions
[[ "${TLS_EXTENSIONS:0:1}" == " " ]] && TLS_EXTENSIONS="${TLS_EXTENSIONS:1}"
fi
}
# Note that since, at the moment, this function is only called by run_server_defaults()
# and run_heartbleed(), this function does not look for the status request or NPN
# extensions. For run_heartbleed(), only the heartbeat extension needs to be detected.
# For run_server_defaults(), the status request and NPN would already be detected by
# get_server_certificate(), if they are supported. In the case of the status extension,
# since including a status request extension in a ClientHello does not work for GOST
# only servers. In the case of NPN, since a server will not include both the NPN and
# ALPN extensions in the same ServerHello.
#
determine_tls_extensions() {
local addcmd
local -i success=1
local line params="" tls_extensions=""
local alpn_proto alpn="" alpn_list_len_hex alpn_extn_len_hex
local -i alpn_list_len alpn_extn_len
local cbc_cipher_list="ECDHE-RSA-AES256-SHA384:ECDHE-ECDSA-AES256-SHA384:ECDHE-RSA-AES256-SHA:ECDHE-ECDSA-AES256-SHA:DHE-RSA-AES256-SHA256:DHE-DSS-AES256-SHA256:DH-RSA-AES256-SHA256:DH-DSS-AES256-SHA256:DHE-RSA-AES256-SHA:DHE-DSS-AES256-SHA:DH-RSA-AES256-SHA:DH-DSS-AES256-SHA:ECDHE-RSA-CAMELLIA256-SHA384:ECDHE-ECDSA-CAMELLIA256-SHA384:DHE-RSA-CAMELLIA256-SHA256:DHE-DSS-CAMELLIA256-SHA256:DH-RSA-CAMELLIA256-SHA256:DH-DSS-CAMELLIA256-SHA256:DHE-RSA-CAMELLIA256-SHA:DHE-DSS-CAMELLIA256-SHA:DH-RSA-CAMELLIA256-SHA:DH-DSS-CAMELLIA256-SHA:ECDH-RSA-AES256-SHA384:ECDH-ECDSA-AES256-SHA384:ECDH-RSA-AES256-SHA:ECDH-ECDSA-AES256-SHA:ECDH-RSA-CAMELLIA256-SHA384:ECDH-ECDSA-CAMELLIA256-SHA384:AES256-SHA256:AES256-SHA:CAMELLIA256-SHA256:CAMELLIA256-SHA:ECDHE-RSA-AES128-SHA256:ECDHE-ECDSA-AES128-SHA256:ECDHE-RSA-AES128-SHA:ECDHE-ECDSA-AES128-SHA:DHE-RSA-AES128-SHA256:DHE-DSS-AES128-SHA256:DH-RSA-AES128-SHA256:DH-DSS-AES128-SHA256:DHE-RSA-AES128-SHA:DHE-DSS-AES128-SHA:DH-RSA-AES128-SHA:DH-DSS-AES128-SHA:ECDHE-RSA-CAMELLIA128-SHA256:ECDHE-ECDSA-CAMELLIA128-SHA256:DHE-RSA-CAMELLIA128-SHA256:DHE-DSS-CAMELLIA128-SHA256:DH-RSA-CAMELLIA128-SHA256:DH-DSS-CAMELLIA128-SHA256:DHE-RSA-SEED-SHA:DHE-DSS-SEED-SHA:DH-RSA-SEED-SHA:DH-DSS-SEED-SHA:DHE-RSA-CAMELLIA128-SHA:DHE-DSS-CAMELLIA128-SHA:DH-RSA-CAMELLIA128-SHA:DH-DSS-CAMELLIA128-SHA:ECDH-RSA-AES128-SHA256:ECDH-ECDSA-AES128-SHA256:ECDH-RSA-AES128-SHA:ECDH-ECDSA-AES128-SHA:ECDH-RSA-CAMELLIA128-SHA256:ECDH-ECDSA-CAMELLIA128-SHA256:AES128-SHA256:AES128-SHA:CAMELLIA128-SHA256:SEED-SHA:CAMELLIA128-SHA:IDEA-CBC-SHA:ECDHE-RSA-DES-CBC3-SHA:ECDHE-ECDSA-DES-CBC3-SHA:EDH-RSA-DES-CBC3-SHA:EDH-DSS-DES-CBC3-SHA:DH-RSA-DES-CBC3-SHA:DH-DSS-DES-CBC3-SHA:ECDH-RSA-DES-CBC3-SHA:ECDH-ECDSA-DES-CBC3-SHA:DES-CBC3-SHA:EXP1024-DHE-DSS-DES-CBC-SHA:EDH-RSA-DES-CBC-SHA:EDH-DSS-DES-CBC-SHA:DH-RSA-DES-CBC-SHA:DH-DSS-DES-CBC-SHA:EXP1024-DES-CBC-SHA:DES-CBC-SHA:EXP-EDH-RSA-DES-CBC-SHA:EXP-EDH-DSS-DES-CBC-SHA:EXP-DES-CBC-SHA:EXP-RC2-CBC-MD5:EXP-DH-DSS-DES-CBC-SHA:EXP-DH-RSA-DES-CBC-SHA"
local cbc_cipher_list_hex="c0,28, c0,24, c0,14, c0,0a, 00,6b, 00,6a, 00,69, 00,68, 00,39, 00,38, 00,37, 00,36, c0,77, c0,73, 00,c4, 00,c3, 00,c2, 00,c1, 00,88, 00,87, 00,86, 00,85, c0,2a, c0,26, c0,0f, c0,05, c0,79, c0,75, 00,3d, 00,35, 00,c0, 00,84, c0,3d, c0,3f, c0,41, c0,43, c0,45, c0,49, c0,4b, c0,4d, c0,4f, c0,27, c0,23, c0,13, c0,09, 00,67, 00,40, 00,3f, 00,3e, 00,33, 00,32, 00,31, 00,30, c0,76, c0,72, 00,be, 00,bd, 00,bc, 00,bb, 00,9a, 00,99, 00,98, 00,97, 00,45, 00,44, 00,43, 00,42, c0,29, c0,25, c0,0e, c0,04, c0,78, c0,74, 00,3c, 00,2f, 00,ba, 00,96, 00,41, 00,07, c0,3c, c0,3e, c0,40, c0,42, c0,44, c0,48, c0,4a, c0,4c, c0,4e, c0,12, c0,08, 00,16, 00,13, 00,10, 00,0d, c0,0d, c0,03, 00,0a, fe,ff, ff,e0, 00,63, 00,15, 00,12, 00,0f, 00,0c, 00,62, 00,09, fe,fe, ff,e1, 00,14, 00,11, 00,08, 00,06, 00,0b, 00,0e"
local using_sockets=true
[[ "$OPTIMAL_PROTO" == -ssl2 ]] && return 0
"$SSL_NATIVE" && using_sockets=false
if "$using_sockets"; then
tls_extensions="00,01,00,01,02, 00,02,00,00, 00,04,00,00, 00,12,00,00, 00,16,00,00, 00,17,00,00"
if [[ -z $STARTTLS ]]; then
for alpn_proto in $ALPN_PROTOs; do
alpn+=",$(printf "%02x" ${#alpn_proto}),$(string_to_asciihex "$alpn_proto")"
done
alpn_list_len=${#alpn}/3
alpn_list_len_hex=$(printf "%04x" $alpn_list_len)
alpn_extn_len=$alpn_list_len+2
alpn_extn_len_hex=$(printf "%04x" $alpn_extn_len)
tls_extensions+=", 00,10,${alpn_extn_len_hex:0:2},${alpn_extn_len_hex:2:2},${alpn_list_len_hex:0:2},${alpn_list_len_hex:2:2}$alpn"
fi
if [[ ! "$TLS_EXTENSIONS" =~ encrypt-then-mac ]]; then
tls_sockets "03" "$cbc_cipher_list_hex, 00,ff" "all" "$tls_extensions"
success=$?
fi
if [[ $success -ne 0 ]] && [[ $success -ne 2 ]]; then
tls_sockets "03" "$TLS12_CIPHER" "all" "$tls_extensions"
success=$?
fi
[[ $success -eq 2 ]] && success=0
[[ $success -eq 0 ]] && extract_new_tls_extensions "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt"
if [[ -r "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" ]]; then
cp "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" $TMPFILE
tmpfile_handle ${FUNCNAME[0]}.txt
fi
else
if "$HAS_ALPN" && [[ -z $STARTTLS ]]; then
params="-alpn \"${ALPN_PROTOs// /,}\"" # we need to replace " " by ","
elif "$HAS_NPN" && [[ -z $STARTTLS ]]; then
params="-nextprotoneg \"$NPN_PROTOs\""
fi
if [[ -z "$OPTIMAL_PROTO" ]] && [[ -z "$SNI" ]] && "$HAS_NO_SSL2"; then
addcmd="-no_ssl2"
else
addcmd="$SNI"
fi
if [[ ! "$TLS_EXTENSIONS" =~ encrypt-then-mac ]]; then
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $addcmd $OPTIMAL_PROTO -tlsextdebug $params -cipher $cbc_cipher_list") </dev/null 2>$ERRFILE >$TMPFILE
sclient_connect_successful $? $TMPFILE
success=$?
fi
if [[ $success -ne 0 ]]; then
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $addcmd $OPTIMAL_PROTO -tlsextdebug $params") </dev/null 2>$ERRFILE >$TMPFILE
sclient_connect_successful $? $TMPFILE
success=$?
fi
[[ $success -eq 0 ]] && extract_new_tls_extensions $TMPFILE
tmpfile_handle ${FUNCNAME[0]}.txt
fi
# Keep it "on file" for debugging purposes
debugme1 safe_echo "$TLS_EXTENSIONS" 2>&1 >"$TEMPDIR/$NODE.$NODEIP.tls_extensions.txt"
return $success
}
# Return a list of the certificate compression methods supported (RFC 8879)
determine_cert_compression() {
# 1=zlib, 2=brotli, 3=zstd
local -a supported_compression_methods=("" "false" "false" "false")
local -i i len nr_compression_methods=3
local len1 len2 methods_to_test method_found method_nr methods_found=""
# Certificate compression is only supported by TLS 1.3.
[[ $(has_server_protocol "tls1_3") -eq 1 ]] && tm_out "" && return 1
while true; do
methods_to_test=""
for (( i=1; i <= nr_compression_methods; i++ )); do
! "${supported_compression_methods[i]}" && methods_to_test+=" ,00,$(printf "%02x" $i)"
done
len=$((2*${#methods_to_test}/7))
# If there are no more compression methods remaining to be tested, then quit.
[[ $len -eq 0 ]] && break
len1=$(printf "%02x" "$len")
len2=$(printf "%02x" "$((len+1))")
tls_sockets "04" "$TLS13_CIPHER" "all+" "00,1b, 00,$len2, $len1$methods_to_test"
if [[ $? -ne 0 ]]; then
add_proto_offered tls1_3 no
tm_out ""
return 1
fi
add_proto_offered tls1_3 yes
method_found="$(awk '/Certificate Compression Algorithm: / { print $4 $5 }' "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")"
[[ -z "$method_found" ]] && break
[[ -z "$methods_found" ]] && tmpfile_handle ${FUNCNAME[0]}.txt "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt"
method_found="${method_found//(//}"
method_found="${method_found//)/}"
method_nr="${method_found%%/*}"
supported_compression_methods[method_nr]=true
methods_found+=" $method_found"
done
if [[ -n "$methods_found" ]]; then
methods_found="${methods_found:1}"
else
methods_found="none"
fi
tm_out "$methods_found"
return 0
}
extract_certificates() {
local version="$1"
local savedir
local -i i success nrsaved=0
local issuerDN CAsubjectDN previssuerDN
# Place the server's certificate in $HOSTCERT and any intermediate
# certificates that were provided in $TEMPDIR/intermediatecerts.pem
savedir="$PWD"; cd $TEMPDIR
# https://backreference.org/2010/05/09/ocsp-verification-with-openssl/
if [[ "$version" == ssl2 ]]; then
awk -v n=-1 '/Server certificate/ {start=1}
/-----BEGIN CERTIFICATE-----/{ if (start) {inc=1; n++} }
inc { print > ("level" n ".crt") }
/---END CERTIFICATE-----/{ inc=0 }' $TMPFILE
else
awk -v n=-1 '/Certificate chain/ {start=1}
/-----BEGIN CERTIFICATE-----/{ if (start) {inc=1; n++} }
inc { print > ("level" n ".crt") }
/---END CERTIFICATE-----/{ inc=0 }' $TMPFILE
fi
[[ -s level0.crt ]] && nrsaved=$(count_words "$(echo level?.crt 2>/dev/null)")
if [[ $nrsaved -eq 0 ]]; then
success=1
else
success=0
CERTIFICATE_LIST_ORDERING_PROBLEM=false
mv level0.crt $HOSTCERT
if [[ $nrsaved -eq 1 ]]; then
echo "" > $TEMPDIR/intermediatecerts.pem
else
cat level?.crt > $TEMPDIR/intermediatecerts.pem
issuerDN="$($OPENSSL x509 -in $HOSTCERT -noout -issuer 2>/dev/null)"
issuerDN="${issuerDN:8}"
previssuerDN="$issuerDN"
# The second certificate (level1.crt) SHOULD be issued to the CA
# that issued the server's certificate. But, according to RFC 8446
# clients SHOULD be prepared to handle cases in which the server
# does not order the certificates correctly.
for (( i=1; i < nrsaved; i++ )); do
CAsubjectDN="$($OPENSSL x509 -in "level$i.crt" -noout -subject 2>/dev/null)"
if [[ "${CAsubjectDN:9}" == "$issuerDN" ]]; then
cp "level$i.crt" $TEMPDIR/hostcert_issuer.pem
issuerDN="" # set to empty to prevent further matches
fi
[[ "${CAsubjectDN:9}" != "$previssuerDN" ]] && CERTIFICATE_LIST_ORDERING_PROBLEM=true
"$CERTIFICATE_LIST_ORDERING_PROBLEM" && [[ -z "$issuerDN" ]] && break
previssuerDN="$($OPENSSL x509 -in "level$i.crt" -noout -issuer 2>/dev/null)"
previssuerDN="${previssuerDN:8}"
done
# This should never happen, but if more than one certificate was
# provided and none of them belong to the CA that issued the
# server's certificate, then the extra certificates should just
# be deleted. There is code elsewhere that assumes that if
# $TEMPDIR/intermediatecerts.pem is non-empty, then
# $TEMPDIR/hostcert_issuer.pem is also present.
[[ -n "$issuerDN" ]] && echo "" > $TEMPDIR/intermediatecerts.pem
rm level?.crt
fi
fi
cd "$savedir"
return $success
}
extract_stapled_ocsp() {
local response="$(cat $TMPFILE)"
local ocsp tmp
local -i ocsp_len
STAPLED_OCSP_RESPONSE=""
if [[ "$response" =~ CertificateStatus ]]; then
# This is OpenSSL 1.1.0 or 1.1.1 and the response
# is TLS 1.2 or earlier.
ocsp="${response##*CertificateStatus}"
ocsp="16${ocsp#*16}"
ocsp="${ocsp%%<<<*}"
ocsp="$(strip_spaces "$(newline_to_spaces "$ocsp")")"
ocsp="${ocsp:8}"
elif [[ "$response" =~ "TLS server extension \"status request\" (id=5), len=0" ]]; then
# This is not OpenSSL 1.1.0 or 1.1.1, and the response
# is TLS 1.2 or earlier.
ocsp="${response%%OCSP response:*}"
ocsp="${ocsp##*<<<}"
ocsp="16${ocsp#*16}"
ocsp="$(strip_spaces "$(newline_to_spaces "$ocsp")")"
ocsp="${ocsp:8}"
elif [[ "$response" =~ "TLS server extension \"status request\" (id=5), len=" ]]; then
# This is OpenSSL 1.1.1 and the response is TLS 1.3.
ocsp="${response##*TLS server extension \"status request\" (id=5), len=}"
ocsp="${ocsp%%<<<*}"
tmp="${ocsp%%[!0-9]*}"
ocsp="${ocsp#$tmp}"
ocsp_len=2*$tmp
ocsp="$(awk ' { print $3 $4 $5 $6 $7 $8 $9 $10 $11 $12 $13 $14 $15 $16 $17 } ' <<< "$ocsp" | sed 's/-//')"
ocsp="$(strip_spaces "$(newline_to_spaces "$ocsp")")"
ocsp="${ocsp:0:ocsp_len}"
else
return 0
fi
# Determine whether this is a single OCSP response or a sequence of
# responses and then extract just the response for the server's
# certificate.
if [[ "${ocsp:0:2}" == "01" ]]; then
STAPLED_OCSP_RESPONSE="${ocsp:8}"
elif [[ "${ocsp:0:2}" == "02" ]]; then
ocsp_len=2*$(hex2dec "${tls_certificate_status_ascii:8:6}")
STAPLED_OCSP_RESPONSE="${ocsp:14:ocsp_len}"
fi
return 0
}
# arg1 is "<OpenSSL cipher>"
# arg2 is a list of protocols to try (tls1_2, tls1_1, tls1, ssl3) or empty (if all should be tried)
get_server_certificate() {
local protocols_to_try proto
local success ret
local npn_params="" line
local ciphers_to_test=""
# Cipher suites that use a certifiate with an RSA (signature) public key
local -r a_rsa="cc,13, cc,15, c0,30, c0,28, c0,14, 00,9f, cc,a8, cc,aa, c0,a3, c0,9f, 00,6b, 00,39, c0,77, 00,c4, 00,88, c0,45, c0,4d, c0,53, c0,61, c0,7d, c0,8b, 16,b7, 16,b9, c0,2f, c0,27, c0,13, 00,9e, c0,a2, c0,9e, 00,67, 00,33, c0,76, 00,be, 00,9a, 00,45, c0,44, c0,4c, c0,52, c0,60, c0,7c, c0,8a, c0,11, c0,12, 00,16, 00,15, 00,14, c0,10"
# Cipher suites that use a certifiate with an RSA (encryption) public key
local -r e_rsa="00,b7, c0,99, 00,ad, cc,ae, 00,9d, c0,a1, c0,9d, 00,3d, 00,35, 00,c0, 00,84, 00,95, c0,3d, c0,51, c0,69, c0,6f, c0,7b, c0,93, ff,01, 00,ac, c0,a0, c0,9c, 00,9c, 00,3c, 00,2f, 00,ba, 00,b6, 00,96, 00,41, c0,98, 00,07, 00,94, c0,3c, c0,50, c0,68, c0,6e, c0,7a, c0,92, 00,05, 00,04, 00,92, 00,0a, 00,93, fe,ff, ff,e0, 00,62, 00,09, 00,61, fe,fe, ff,e1, 00,64, 00,60, 00,08, 00,06, 00,03, 00,b9, 00,b8, 00,2e, 00,3b, 00,02, 00,01, ff,00"
# Cipher suites that use a certifiate with a DSA public key
local -r a_dss="00,a3, 00,6a, 00,38, 00,c3, 00,87, c0,43, c0,57, c0,81, 00,a2, 00,40, 00,32, 00,bd, 00,99, 00,44, c0,42, c0,56, c0,80, 00,66, 00,13, 00,63, 00,12, 00,65, 00,11"
# Cipher suites that use a certifiate with a DH public key
local -r a_dh="00,a5, 00,a1, 00,69, 00,68, 00,37, 00,36, 00,c2, 00,c1, 00,86, 00,85, c0,3f, c0,41, c0,55, c0,59, c0,7f, c0,83, 00,a4, 00,a0, 00,3f, 00,3e, 00,31, 00,30, 00,bc, 00,bb, 00,98, 00,97, 00,43, 00,42, c0,3e, c0,40, c0,54, c0,58, c0,7e, c0,82, 00,10, 00,0d, 00,0f, 00,0c, 00,0b, 00,0e"
# Cipher suites that use a certifiate with an ECDH public key
local -r a_ecdh="c0,32, c0,2e, c0,2a, c0,26, c0,0f, c0,05, c0,79, c0,75, c0,4b, c0,4f, c0,5f, c0,63, c0,89, c0,8d, c0,31, c0,2d, c0,29, c0,25, c0,0e, c0,04, c0,78, c0,74, c0,4a, c0,4e, c0,5e, c0,62, c0,88, c0,8c, c0,0c, c0,02, c0,0d, c0,03, c0,0b, c0,01"
# Cipher suites that use a certifiate with an ECDSA public key
local -r a_ecdsa="cc,14, c0,2c, c0,24, c0,0a, cc,a9, c0,af, c0,ad, c0,73, c0,49, c0,5d, c0,87, 16,b8, 16,ba, c0,2b, c0,23, c0,09, c0,ae, c0,ac, c0,72, c0,48, c0,5c, c0,86, c0,07, c0,08, c0,06"
# Cipher suites that use a certifiate with a GOST public key
local -r a_gost="00,80, 00,81, 00,82, 00,83"
local using_sockets=true
"$SSL_NATIVE" && using_sockets=false
CERTIFICATE_LIST_ORDERING_PROBLEM=false
if [[ "$1" =~ tls1_3 ]]; then
[[ $(has_server_protocol "tls1_3") -eq 1 ]] && return 1
if "$HAS_TLS13" && "$HAS_SIGALGS" && [[ ! "$1" =~ tls1_3_EdDSA ]]; then
if [[ "$1" =~ tls1_3_RSA ]]; then
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -showcerts -connect $NODEIP:$PORT $PROXY $SNI -tls1_3 -tlsextdebug -status -msg -sigalgs PSS+SHA256:PSS+SHA384") </dev/null 2>$ERRFILE >$TMPFILE
elif [[ "$1" =~ tls1_3_ECDSA ]]; then
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -showcerts -connect $NODEIP:$PORT $PROXY $SNI -tls1_3 -tlsextdebug -status -msg -sigalgs ECDSA+SHA256:ECDSA+SHA384") </dev/null 2>$ERRFILE >$TMPFILE
else
return 1
fi
sclient_connect_successful $? $TMPFILE || return 1
DETECTED_TLS_VERSION="0304"
extract_certificates "tls1_3"
extract_stapled_ocsp
success=$?
else
# For STARTTLS protcols not being implemented yet via sockets this is a bypass otherwise it won't be usable at all (e.g. LDAP)
if ( [[ "$STARTTLS" =~ ldap ]] || [[ "$STARTTLS" =~ irc ]] ); then
return 1
elif [[ "$1" =~ tls1_3_RSA ]]; then
tls_sockets "04" "$TLS13_CIPHER" "all+" "00,12,00,00, 00,05,00,05,01,00,00,00,00, 00,0d,00,10,00,0e,08,04,08,05,08,06,04,01,05,01,06,01,02,01"
elif [[ "$1" =~ tls1_3_ECDSA ]]; then
tls_sockets "04" "$TLS13_CIPHER" "all+" "00,12,00,00, 00,05,00,05,01,00,00,00,00, 00,0d,00,0a,00,08,04,03,05,03,06,03,02,03"
elif [[ "$1" =~ tls1_3_EdDSA ]]; then
tls_sockets "04" "$TLS13_CIPHER" "all+" "00,12,00,00, 00,05,00,05,01,00,00,00,00, 00,0d,00,06,00,04,08,07,08,08"
else
return 1
fi
success=$?
[[ $success -eq 0 ]] || return 1
cp "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" $TMPFILE
fi
[[ $success -eq 0 ]] && add_proto_offered tls1_3 yes
extract_new_tls_extensions $TMPFILE
tmpfile_handle ${FUNCNAME[0]}.txt
return $success
fi
"$HAS_NPN" && [[ -z "$STARTTLS" ]] && npn_params="-nextprotoneg \"$NPN_PROTOs\""
if [[ -n "$2" ]]; then
protocols_to_try="$2"
else
protocols_to_try="tls1_2 tls1_1 tls1 ssl3"
fi
# throwing 1st every cipher/protocol at the server to know what works
success=7
if [[ "$OPTIMAL_PROTO" == -ssl2 ]]; then
success=1
sslv2_sockets "" "true"
if [[ $? -eq 3 ]]; then
mv $TEMPDIR/$NODEIP.parse_sslv2_serverhello.txt $TMPFILE
success=0
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return $success
fi
if "$using_sockets"; then
protocols_to_try="${protocols_to_try/tls1_2/03}"
protocols_to_try="${protocols_to_try/tls1_1/02}"
protocols_to_try="${protocols_to_try/tls1/01}"
protocols_to_try="${protocols_to_try/ssl3/00}"
[[ "$1" =~ aRSA ]] && ciphers_to_test+=", $a_rsa"
[[ "$1" =~ eRSA ]] && ciphers_to_test+=", $e_rsa"
[[ "$1" =~ aDSS ]] && ciphers_to_test+=", $a_dss"
[[ "$1" =~ aDH ]] && ciphers_to_test+=", $a_dh"
[[ "$1" =~ aECDH ]] && ciphers_to_test+=", $a_ecdh"
[[ "$1" =~ aECDSA ]] && ciphers_to_test+=", $a_ecdsa"
[[ "$1" =~ aGOST ]] && ciphers_to_test+=", $a_gost"
[[ -z "$ciphers_to_test" ]] && return 1
ciphers_to_test="${ciphers_to_test:2}"
for proto in $protocols_to_try; do
[[ 1 -eq $(has_server_protocol $proto) ]] && continue
tls_sockets "$proto" "$ciphers_to_test, 00,ff" "all" "00,12,00,00, 00,05,00,05,01,00,00,00,00"
ret=$?
[[ $ret -eq 0 ]] && success=0 && break
[[ $ret -eq 2 ]] && success=0 && break
done # this loop is needed for IIS6 and others which have a handshake size limitations
if [[ $success -eq 7 ]]; then
# "-status" above doesn't work for GOST only servers, so we do another test without it and see whether that works then:
tls_sockets "$proto" "$ciphers_to_test, 00,ff" "all" "00,12,00,00"
ret=$?
[[ $ret -eq 0 ]] && success=0
[[ $ret -eq 2 ]] && success=0
if [[ $success -eq 7 ]]; then
if [ -z "$1" ]; then
prln_warning "Strange, no SSL/TLS protocol seems to be supported (error around line $((LINENO - 6)))"
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return 7 # this is ugly, I know
else
GOST_STATUS_PROBLEM=true
fi
fi
cp $TEMPDIR/$NODEIP.parse_tls_serverhello.txt $TMPFILE
# When "$2" is empty, get_server_certificate() is being called with SNI="".
# In case the extensions returned by the server differ depending on wheter
# SNI is provided or not, don't collect extensions when SNI="" (unless
# no DNS name was provided at the command line).
[[ -z "$2" ]] && extract_new_tls_extensions $TMPFILE
else
# no sockets, openssl
ciphers_to_test="$1"
if [[ "$1" =~ aRSA ]] && [[ "$1" =~ eRSA ]]; then
ciphers_to_test="${ciphers_to_test/eRSA/}"
elif [[ "$1" =~ aRSA ]]; then
ciphers_to_test="${ciphers_to_test/aRSA/}"
for ciph in $(colon_to_spaces $(actually_supported_osslciphers "aRSA")); do
[[ "$ciph" =~ -RSA- ]] && ciphers_to_test+=":$ciph"
done
elif [[ "$1" =~ eRSA ]]; then
ciphers_to_test="${ciphers_to_test/eRSA/}"
for ciph in $(colon_to_spaces $(actually_supported_osslciphers "aRSA")); do
[[ ! "$ciph" =~ -RSA- ]] && ciphers_to_test+=":$ciph"
done
fi
ciphers_to_test="${ciphers_to_test/::/:}"
[[ "${ciphers_to_test:0:1}" == : ]] && ciphers_to_test="${ciphers_to_test:1}"
[[ $(count_ciphers $(actually_supported_osslciphers "$ciphers_to_test")) -ge 1 ]] || return 1
for proto in $protocols_to_try; do
[[ 1 -eq $(has_server_protocol $proto) ]] && continue
[[ "$proto" == ssl3 ]] && ! "$HAS_SSL3" && continue
addcmd=""
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -cipher $ciphers_to_test -showcerts -connect $NODEIP:$PORT $PROXY $SNI -$proto -tlsextdebug $npn_params -status -msg") </dev/null 2>$ERRFILE >$TMPFILE
if sclient_connect_successful $? $TMPFILE; then
success=0
break # now we have the certificate
fi
done # this loop is needed for IIS6 and others which have a handshake size limitations
if [[ $success -eq 7 ]]; then
# "-status" above doesn't work for GOST only servers, so we do another test without it and see whether that works then:
[[ "$proto" == ssl3 ]] && ! "$HAS_SSL3" && return 7
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -cipher $ciphers_to_test -showcerts -connect $NODEIP:$PORT $PROXY $SNI -$proto -tlsextdebug") </dev/null 2>>$ERRFILE >$TMPFILE
if ! sclient_connect_successful $? $TMPFILE; then
if [ -z "$1" ]; then
prln_warning "Strange, no SSL/TLS protocol seems to be supported (error around line $((LINENO - 6)))"
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return 7 # this is ugly, I know
else
GOST_STATUS_PROBLEM=true
fi
fi
case "$proto" in
"tls1_2") DETECTED_TLS_VERSION="0303" ;;
"tls1_1") DETECTED_TLS_VERSION="0302" ;;
"tls1") DETECTED_TLS_VERSION="0301" ;;
"ssl3") DETECTED_TLS_VERSION="0300" ;;
esac
# When "$2" is empty, get_server_certificate() is being called with SNI="".
# In case the extensions returned by the server differ depending on wheter
# SNI is provided or not, don't collect extensions when SNI="" (unless
# no DNS name was provided at the command line).
[[ -z "$2" ]] && extract_new_tls_extensions $TMPFILE
extract_certificates "$proto"
extract_stapled_ocsp
success=$?
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return $success
}
# arg1: path to certificate
# returns CN
get_cn_from_cert() {
local subject
# attention! openssl 1.0.2 doesn't properly handle online output from certificates from trustwave.com/github.com
#FIXME: use -nameopt oid for robustness
# for e.g. russian sites -esc_msb,utf8 works in an UTF8 terminal -- any way to check platform independent?
# see x509(1ssl):
subject="$($OPENSSL x509 -in $1 -noout -subject -nameopt multiline,-align,sname,-esc_msb,utf8,-space_eq 2>>$ERRFILE)"
echo "$(awk -F'=' '/CN=/ { print $2 }' <<< "$subject" | tr '\n' ' ')"
return $?
}
# Return 0 if the name provided in arg1 is a wildcard name
is_wildcard()
{
local certname="$1"
# If the first label in the DNS name begins "xn--", then assume it is an
# A-label and not a wildcard name (RFC 6125, Section 6.4.3).
[[ "${certname:0:4}" == "xn--" ]] && return 1
# Remove part of name preceding '*' or '.'. If no "*" appears in the
# left-most label, then it is not a wildcard name (RFC 6125, Section 6.4.3).
basename="$(echo -n "$certname" | sed 's/^[_a-zA-Z0-9\-]*//')"
[[ "${basename:0:1}" != "*" ]] && return 1 # not a wildcard name
# Check that there are no additional wildcard ('*') characters or any
# other characters that do not belong in a DNS name.
[[ -n $(echo -n "${basename:1}" | sed 's/^[_\.a-zA-Z0-9\-]*//') ]] && return 1
return 0
}
# Return 0 if the name provided in arg2 is a wildcard name and it matches the name provided in arg1.
wildcard_match()
{
local servername="$1"
local certname="$2"
local basename
local -i basename_offset len_certname len_part1 len_basename
local -i len_servername len_wildcard
len_servername=${#servername}
len_certname=${#certname}
# Use rules from RFC 6125 to perform the match.
# Assume the "*" in the wildcard needs to be replaced by one or more
# characters, although RFC 6125 is not clear about that.
[[ $len_servername -lt $len_certname ]] && return 1
is_wildcard "$certname"
[[ $? -ne 0 ]] && return 1
# Comparisons of DNS names are case insensitive, so convert both names to uppercase.
certname="$(toupper "$certname")"
servername="$(toupper "$servername")"
# Extract part of name that comes after the "*"
basename="$(echo -n "$certname" | sed 's/^[_A-Z0-9\-]*\*//')"
len_basename=${#basename}
len_part1=$len_certname-$len_basename-1
len_wildcard=$len_servername-$len_certname+1
basename_offset=$len_servername-$len_basename
# Check that initial part of $servername matches initial part of $certname
# and that final part of $servername matches final part of $certname.
[[ "${servername:0:len_part1}" != "${certname:0:len_part1}" ]] && return 1
[[ "${servername:basename_offset:len_basename}" != "$basename" ]] && return 1
# Check that part of $servername that matches "*" is all part of a single
# domain label.
[[ -n $(echo -n "${servername:len_part1:len_wildcard}" | sed 's/^[_A-Z0-9\-]*//') ]] && return 1
return 0
}
# Compare the server name provided in arg1 to the CN and SAN in arg2 and return:
# 0, if server name provided does not match any of the names in the CN or SAN
# 1, if the server name provided matches a name in the SAN
# 2, if the server name provided is a wildcard match against a name in the SAN
# 4, if the server name provided matches the CN
# 5, if the server name provided matches the CN AND a name in the SAN
# 6, if the server name provided matches the CN AND is a wildcard match against a name in the SAN
# 8, if the server name provided is a wildcard match against the CN
# 9, if the server name provided matches a name in the SAN AND is a wildcard match against the CN
# 10, if the server name provided is a wildcard match against the CN AND a name in the SAN
compare_server_name_to_cert() {
local cert="$1"
local servername cns cn dns_sans ip_sans san dercert tag
local srv_id="" xmppaddr=""
local -i i len len1 cn_match=0
local -i subret=0 # no error condition, passing results
HAS_DNS_SANS=false
if [[ -n "$XMPP_HOST" ]]; then
# RFC 6120, Section 13.7.2.1, states that for XMPP the identity that
# should appear in the server's certificate is identity that appears
# in the the 'to' address that the client communicates in the initial
# stream header.
servername="$(toupper "$XMPP_HOST")"
else
servername="$(toupper "$NODE")"
fi
# Check whether any of the DNS names in the certificate match the servername
dns_sans="$(get_san_dns_from_cert "$cert")"
while read san; do
if [[ -n "$san" ]]; then
HAS_DNS_SANS=true
[[ $(toupper "$san") == "$servername" ]] && subret=1 && break
fi
done <<< "$dns_sans"
if [[ $subret -eq 0 ]]; then
# Check whether any of the IP addresses in the certificate match the servername
ip_sans=$($OPENSSL x509 -in "$cert" -noout -text 2>>$ERRFILE | grep -A2 "Subject Alternative Name" | \
tr ',' '\n' | grep "IP Address:" | sed -e 's/IP Address://g' -e 's/ //g')
while read san; do
[[ -n "$san" ]] && [[ "$san" == "$servername" ]] && subret=1 && break
done <<< "$ip_sans"
fi
if [[ $subret -eq 0 ]] && [[ -n "$XMPP_HOST" ]]; then
# For XMPP hosts, in addition to checking for a matching DNS name,
# should also check for a matching SRV-ID or XmppAddr identifier.
dercert="$($OPENSSL x509 -in "$cert" -outform DER 2>>$ERRFILE | hexdump -v -e '16/1 "%02X"')"
# Look for the beginning of the subjectAltName extension. It
# will begin with the OID (2.5.29.17 = 0603551D11). After the OID
# there may be an indication that the extension is critical (0101FF).
# Finally will be the tag indicating that the value of the extension is
# encoded as an OCTET STRING (04).
if [[ "$dercert" =~ 0603551D110101FF04 ]]; then
dercert="${dercert##*0603551D110101FF04}"
else
dercert="${dercert##*0603551D1104}"
fi
# Skip over the encoding of the length of the OCTET STRING.
if [[ "${dercert:0:1}" == "8" ]]; then
i="${dercert:1:1}"
i=2*$i+2
dercert="${dercert:i}"
else
dercert="${dercert:2}"
fi
# Next byte should be a 30 (SEQUENCE).
if [[ "${dercert:0:2}" == "30" ]]; then
# Get the length of the subjectAltName extension and then skip
# over the encoding of the length.
if [[ "${dercert:2:1}" == "8" ]]; then
case "${dercert:3:1}" in
1) len=2*0x${dercert:4:2}; dercert="${dercert:6}" ;;
2) len=2*0x${dercert:4:4}; dercert="${dercert:8}" ;;
3) len=2*0x${dercert:4:6}; dercert="${dercert:10}" ;;
*) len=0 ;;
esac
else
len=2*0x${dercert:2:2}
dercert="${dercert:4}"
fi
if [[ $len -ne 0 ]] && [[ $len -lt ${#dercert} ]]; then
# loop through all the names and extract the SRV-ID and XmppAddr identifiers
for (( i=0; i < len; i+=len_name )); do
tag="${dercert:i:2}"
i+=2
if [[ "${dercert:i:1}" == "8" ]]; then
i+=1
case "${dercert:i:1}" in
1) i+=1; len_name=2*0x${dercert:i:2}; i+=2 ;;
2) i+=1; len_name=2*0x${dercert:i:4}; i+=4 ;;
3) i+=1; len_name=2*0x${dercert:i:6}; i+=4 ;;
*) len=0 ;;
esac
else
len_name=2*0x${dercert:i:2}
i+=2
fi
if [[ "$tag" == "A0" ]]; then
# This is an otherName.
if [[ $len_name -gt 18 ]] && ( [[ "${dercert:i:20}" == "06082B06010505070805" ]] || \
[[ "${dercert:i:20}" == "06082B06010505070807" ]] ); then
# According to the OID, this is either an SRV-ID or XmppAddr.
j=$i+20
if [[ "${dercert:j:2}" == "A0" ]]; then
j+=2
if [[ "${dercert:j:1}" == "8" ]]; then
j+=1
j+=2*0x${dercert:j:1}+1
else
j+=2
fi
if ( [[ "${dercert:i:20}" == "06082B06010505070805" ]] && [[ "${dercert:j:2}" == "0C" ]] ) || \
( [[ "${dercert:i:20}" == "06082B06010505070807" ]] && [[ "${dercert:j:2}" == "16" ]] ); then
# XmppAddr should be encoded as UTF8STRING (0C) and
# SRV-ID should be encoded IA5STRING (16).
j+=2
if [[ "${dercert:j:1}" == "8" ]]; then
j+=1
case "${dercert:j:1}" in
1) j+=1; len1=2*0x${dercert:j:2}; j+=2 ;;
2) j+=1; len1=2*0x${dercert:j:4}; j+=4 ;;
3) j+=1; len1=2*0x${dercert:j:6}; j+=6 ;;
4) len1=0 ;;
esac
else
len1=2*0x${dercert:j:2}
j+=2
fi
if [[ $len1 -ne 0 ]]; then
san="$(hex2binary "${dercert:j:len1}")"
if [[ "${dercert:i:20}" == "06082B06010505070805" ]]; then
xmppaddr+="$san "
else
srv_id+="$san "
fi
fi
fi
fi
fi
fi
done
fi
fi
[[ -n "$srv_id" ]] && HAS_DNS_SANS=true
[[ -n "$xmppaddr" ]] && HAS_DNS_SANS=true
while read -d " " san; do
[[ -n "$san" ]] && [[ $(toupper "$san") == "_XMPP-SERVER.$servername" ]] && subret=1 && break
done <<< "$srv_id"
if [[ $subret -eq 0 ]]; then
while read -d " " san; do
[[ -n "$san" ]] && [[ $(toupper "$san") == "$servername" ]] && subret=1 && break
done <<< "$xmppaddr"
fi
fi
# Check whether any of the DNS names in the certificate are wildcard names
# that match the servername
if [[ $subret -eq 0 ]]; then
while read san; do
[[ -n "$san" ]] || continue
wildcard_match "$servername" "$san"
[[ $? -eq 0 ]] && subret=2 && break
done <<< "$dns_sans"
fi
# Get every CN from the subject field and compare against the server name.
cns="$($OPENSSL x509 -in $1 -noout -subject -nameopt multiline,-align,sname,-esc_msb,utf8,-space_eq 2>>$ERRFILE | awk -F'=' '/CN=/ { print $2 }')"
while read cn; do
# If the CN contains any characters that are not valid for a DNS name,
# then assume it does not contain a DNS name.
[[ -n $(sed 's/^[_\.a-zA-Z0-9*\-]*//' <<< "$cn") ]] && continue
# Check whether the CN matches the servername
[[ $(toupper "$cn") == "$servername" ]] && cn_match=4 && break
# Check whether the CN is a wildcard name that matches the servername
# NOTE: Don't stop loop on a wildcard match in case there is another CN
# that is an exact match.
wildcard_match "$servername" "$cn"
[[ $? -eq 0 ]] && cn_match=8
done <<< "$cns"
subret+=$cn_match
return $subret
}
# This function determines whether the certificate (arg3) contains "visibility
# information" (see Section 4.3.3 of
# https://www.etsi.org/deliver/etsi_ts/103500_103599/10352303/01.02.01_60/ts_10352303v010201p.pdf.
etsi_ets_visibility_info() {
local jsonID="$1"
local spaces="$2"
local cert="$3"
local cert_txt="$4"
local dercert tag
local -a fingerprint=() access_description=()
local -i i j len len1 len_name nr_visnames=0
# If "visibility information" is present, it will appear in the subjectAltName
# extension (0603551D11) as an otherName with OID 0.4.0.3523.3.1 (060604009B430301).
# OpenSSL 1.1.1 and earlier displays all names of type otherName as "othername:<unsupported>".
# As certificates will rarely include a name encoded as an otherName, check the
# text version of the certificate for "othername:<unsupported>" before calling
# external functions to obtain the DER encoded certficate.
if [[ "$cert_txt" =~ X509v3\ Subject\ Alternative\ Name:.*othername:\<unsupported\> ]] || \
[[ "$cert_txt" =~ X509v3\ Subject\ Alternative\ Name:.*othername:\ 0.4.0.3523.3.1 ]]; then
dercert="$($OPENSSL x509 -outform DER 2>>$ERRFILE <<< "$cert" | hexdump -v -e '16/1 "%02X"')"
if [[ "$dercert" =~ 0603551D110101FF04[0-9A-F]*060604009B430301 ]] || \
[[ "$dercert" =~ 0603551D1104[0-9A-F]*060604009B430301 ]]; then
# Look for the beginning of the subjectAltName extension. It
# will begin with the OID (2.5.29.17 = 0603551D11). After the OID
# there may be an indication that the extension is critical (0101FF).
# Finally will be the tag indicating that the value of the extension is
# encoded as an OCTET STRING (04).
if [[ "$dercert" =~ 0603551D110101FF04 ]]; then
dercert="${dercert##*0603551D110101FF04}"
else
dercert="${dercert##*0603551D1104}"
fi
# Skip over the encoding of the length of the OCTET STRING.
if [[ "${dercert:0:1}" == 8 ]]; then
i="${dercert:1:1}"
i=2*$i+2
dercert="${dercert:i}"
else
dercert="${dercert:2}"
fi
# Next byte should be a 30 (SEQUENCE).
if [[ "${dercert:0:2}" == 30 ]]; then
# Get the length of the subjectAltName extension and then skip
# over the encoding of the length.
if [[ "${dercert:2:1}" == 8 ]]; then
case "${dercert:3:1}" in
1) len=2*0x${dercert:4:2}; dercert="${dercert:6}" ;;
2) len=2*0x${dercert:4:4}; dercert="${dercert:8}" ;;
3) len=2*0x${dercert:4:6}; dercert="${dercert:10}" ;;
*) len=0 ;;
esac
else
len=2*0x${dercert:2:2}
dercert="${dercert:4}"
fi
if [[ $len -ne 0 ]] && [[ $len -lt ${#dercert} ]]; then
# loop through all the names and extract the visibility information
for (( i=0; i < len; i+=len_name )); do
tag="${dercert:i:2}"
i+=2
if [[ "${dercert:i:1}" == 8 ]]; then
i+=1
case "${dercert:i:1}" in
1) i+=1; len_name=2*0x${dercert:i:2}; i+=2 ;;
2) i+=1; len_name=2*0x${dercert:i:4}; i+=4 ;;
3) i+=1; len_name=2*0x${dercert:i:6}; i+=4 ;;
*) len=0 ;;
esac
else
len_name=2*0x${dercert:i:2}
i+=2
fi
[[ "$tag" == A0 ]] || continue
# This is an otherName.
[[ $len_name -gt 16 ]] || continue
[[ "${dercert:i:16}" == 060604009B430301 ]] || continue
# According to the OID, this is visibility information.
j=$i+16
# Skip over the tag (A0) and length for the otherName value.
[[ "${dercert:j:2}" == A0 ]] || continue
j+=2
if [[ "${dercert:j:1}" == 8 ]]; then
j+=1
j+=2*0x${dercert:j:1}+1
else
j+=2
fi
# The value for this otherName is encoded as a SEQUENCE (30):
# VisibilityInformation ::= SEQUENCE {
# fingerprint OCTET STRING (SIZE(10)),
# accessDescription UTF8String }
[[ "${dercert:j:2}" == 30 ]] || continue
j+=2
if [[ "${dercert:j:1}" == 8 ]]; then
j+=1
case "${dercert:j:1}" in
1) j+=1; len1=2*0x${dercert:j:2}; j+=2 ;;
2) j+=1; len1=2*0x${dercert:j:4}; j+=4 ;;
3) j+=1; len1=2*0x${dercert:j:6}; j+=6 ;;
4) len1=0 ;;
esac
else
len1=2*0x${dercert:j:2}
j+=2
fi
[[ $len1 -ne 0 ]] || continue
# Next is the 10-byte fingerprint, encoded as an OCTET STRING (04)
[[ "${dercert:j:4}" == 040A ]] || continue
j+=4
fingerprint[nr_visnames]="$(hex2binary "${dercert:j:20}")"
j+=20
# Finally comes the access description, encoded as a UTF8String (0C).
[[ "${dercert:j:2}" == 0C ]] || continue
j+=2
if [[ "${dercert:j:1}" == "8" ]]; then
j+=1
case "${dercert:j:1}" in
1) j+=1; len1=2*0x${dercert:j:2}; j+=2 ;;
2) j+=1; len1=2*0x${dercert:j:4}; j+=4 ;;
3) j+=1; len1=2*0x${dercert:j:6}; j+=6 ;;
4) len1=0 ;;
esac
else
len1=2*0x${dercert:j:2}
j+=2
fi
access_description[nr_visnames]=""$(hex2binary "${dercert:j:len1}")""
nr_visnames+=1
done
fi
fi
fi
fi
if [[ $nr_visnames -eq 0 ]]; then
outln "not present"
fileout "$jsonID" "INFO" "not present"
else
for (( i=0; i < nr_visnames; i++ )); do
[[ $i -ne 0 ]] && out "$spaces"
outln "$(out_row_aligned_max_width "${fingerprint[i]} / ${access_description[i]}" "$spaces" $TERM_WIDTH)"
fileout "$jsonID" "INFO" "${fingerprint[i]} / ${access_description[i]}"
done
fi
return 0
}
# NOTE: arg3 must contain the text output of $HOSTCERT.
must_staple() {
local jsonID="cert_mustStapleExtension"
local json_postfix="$1"
local provides_stapling="$2"
local hostcert_txt="$3"
local cert extn
local -i extn_len
local supported=false
# Note this function is only looking for status_request (5) and not
# status_request_v2 (17), since OpenSSL seems to only include status_request (5)
# in its ClientHello when the "-status" option is used.
# OpenSSL 1.1.0 supports pretty-printing the "TLS Feature extension." For any
# previous versions of OpenSSL, OpenSSL can only show if the extension OID is present.
if grep -A 1 "TLS Feature:" <<< "$hostcert_txt" | grep -q "status_request"; then
# FIXME: This will indicate that must staple is supported if the
# certificate indicates status_request or status_request_v2. This is
# probably okay, since it seems likely that any TLS Feature extension
# that includes status_request_v2 will also include status_request.
supported=true
elif [[ "$hostcert_txt" =~ '1.3.6.1.5.5.7.1.24:' ]]; then
cert="$($OPENSSL x509 -in "$HOSTCERT" -outform DER 2>>$ERRFILE | hexdump -v -e '16/1 "%02X"')"
extn="${cert##*06082B06010505070118}"
# Check for critical bit, and skip over it if present.
[[ "${extn:0:6}" == "0101FF" ]] && extn="${extn:6}"
# Next is tag and length of extnValue OCTET STRING. Assume it is less than 128 bytes.
extn="${extn:4}"
# The TLS Feature is a SEQUENCE of INTEGER. Get the length of the SEQUENCE
extn_len=2*$(hex2dec "${extn:2:2}")
# If the extension include the status_request (5), then it supports must staple.
if [[ "${extn:4:extn_len}" =~ 020105 ]]; then
supported=true
fi
fi
if "$supported"; then
if "$provides_stapling"; then
prln_svrty_good "supported"
fileout "${jsonID}${json_postfix}" "OK" "supported"
else
prln_svrty_high "requires OCSP stapling (NOT ok)"
fileout "${jsonID}${json_postfix}" "HIGH" "extension detected but no OCSP stapling provided"
fi
else
outln "--"
fileout "${jsonID}${json_postfix}" "INFO" "--"
fi
return 0
}
# TODO: This function checks for Certificate Transparency support based on RFC 6962.
# It will need to be updated to add checks for Certificate Transparency support based on 6962bis.
# return values are results, no error conditions
certificate_transparency() {
local cert_txt="$1"
local ocsp_response="$2"
local -i number_of_certificates=$3
local cipher="$4"
local sni_used="$5"
local tls_version="$6"
local sni=""
local ciphers=""
local extra_extns=""
local -i success
# Cipher suites that use a certifiate with an RSA (signature) public key
local -r a_rsa="cc,13, cc,15, c0,30, c0,28, c0,14, 00,9f, cc,a8, cc,aa, c0,a3, c0,9f, 00,6b, 00,39, c0,77, 00,c4, 00,88, c0,45, c0,4d, c0,53, c0,61, c0,7d, c0,8b, 16,b7, 16,b9, c0,2f, c0,27, c0,13, 00,9e, c0,a2, c0,9e, 00,67, 00,33, c0,76, 00,be, 00,9a, 00,45, c0,44, c0,4c, c0,52, c0,60, c0,7c, c0,8a, c0,11, c0,12, 00,16, 00,15, 00,14, c0,10"
# Cipher suites that use a certifiate with an RSA (encryption) public key
local -r e_rsa="00,b7, c0,99, 00,ad, cc,ae, 00,9d, c0,a1, c0,9d, 00,3d, 00,35, 00,c0, 00,84, 00,95, c0,3d, c0,51, c0,69, c0,6f, c0,7b, c0,93, ff,01, 00,ac, c0,a0, c0,9c, 00,9c, 00,3c, 00,2f, 00,ba, 00,b6, 00,96, 00,41, c0,98, 00,07, 00,94, c0,3c, c0,50, c0,68, c0,6e, c0,7a, c0,92, 00,05, 00,04, 00,92, 00,0a, 00,93, fe,ff, ff,e0, 00,62, 00,09, 00,61, fe,fe, ff,e1, 00,64, 00,60, 00,08, 00,06, 00,03, 00,b9, 00,b8, 00,2e, 00,3b, 00,02, 00,01, ff,00"
# Cipher suites that use a certifiate with a DSA public key
local -r a_dss="00,a3, 00,6a, 00,38, 00,c3, 00,87, c0,43, c0,57, c0,81, 00,a2, 00,40, 00,32, 00,bd, 00,99, 00,44, c0,42, c0,56, c0,80, 00,66, 00,13, 00,63, 00,12, 00,65, 00,11"
# Cipher suites that use a certifiate with a DH public key
local -r a_dh="00,a5, 00,a1, 00,69, 00,68, 00,37, 00,36, 00,c2, 00,c1, 00,86, 00,85, c0,3f, c0,41, c0,55, c0,59, c0,7f, c0,83, 00,a4, 00,a0, 00,3f, 00,3e, 00,31, 00,30, 00,bc, 00,bb, 00,98, 00,97, 00,43, 00,42, c0,3e, c0,40, c0,54, c0,58, c0,7e, c0,82, 00,10, 00,0d, 00,0f, 00,0c, 00,0b, 00,0e"
# Cipher suites that use a certifiate with an ECDH public key
local -r a_ecdh="c0,32, c0,2e, c0,2a, c0,26, c0,0f, c0,05, c0,79, c0,75, c0,4b, c0,4f, c0,5f, c0,63, c0,89, c0,8d, c0,31, c0,2d, c0,29, c0,25, c0,0e, c0,04, c0,78, c0,74, c0,4a, c0,4e, c0,5e, c0,62, c0,88, c0,8c, c0,0c, c0,02, c0,0d, c0,03, c0,0b, c0,01"
# Cipher suites that use a certifiate with an ECDSA public key
local -r a_ecdsa="cc,14, c0,2c, c0,24, c0,0a, cc,a9, c0,af, c0,ad, c0,73, c0,49, c0,5d, c0,87, 16,b8, 16,ba, c0,2b, c0,23, c0,09, c0,ae, c0,ac, c0,72, c0,48, c0,5c, c0,86, c0,07, c0,08, c0,06"
# Cipher suites that use a certifiate with a GOST public key
local -r a_gost="00,80, 00,81, 00,82, 00,83"
# First check whether signed certificate timestamps (SCT) are included in the
# server's certificate. If they aren't, check whether the server provided
# a stapled OCSP response with SCTs. If no SCTs were found in the certificate
# or OCSP response, check for an SCT TLS extension.
if [[ "$cert_txt" =~ CT\ Precertificate\ SCTs ]] || [[ "$cert_txt" =~ '1.3.6.1.4.1.11129.2.4.2' ]]; then
tm_out "certificate extension"
return 0
fi
if [[ "$ocsp_response" =~ CT\ Certificate\ SCTs ]] || [[ "$ocsp_response" =~ '1.3.6.1.4.1.11129.2.4.5' ]]; then
tm_out "OCSP extension"
return 0
fi
# If the server only has one certificate, then it is sufficient to check whether
# determine_tls_extensions() discovered an SCT TLS extension. If the server has more than
# one certificate, then it is possible that an SCT TLS extension is returned for some
# certificates, but not for all of them.
if [[ $number_of_certificates -eq 1 ]] && [[ "$TLS_EXTENSIONS" =~ signed\ certificate\ timestamps ]]; then
tm_out "TLS extension"
return 0
fi
if [[ $number_of_certificates -gt 1 ]] && ! "$SSL_NATIVE"; then
if [[ "$tls_version" == 0304 ]]; then
ciphers=", 13,01, 13,02, 13,03, 13,04, 13,05"
if [[ "$cipher" == tls1_3_RSA ]]; then
extra_extns=", 00,0d,00,10,00,0e,08,04,08,05,08,06,04,01,05,01,06,01,02,01"
elif [[ "$cipher" == tls1_3_ECDSA ]]; then
extra_extns=", 00,0d,00,0a,00,08,04,03,05,03,06,03,02,03"
else
return 1
fi
else
[[ "$cipher" =~ aRSA ]] && ciphers+=", $a_rsa"
[[ "$cipher" =~ eRSA ]] && ciphers+=", $e_rsa"
[[ "$cipher" =~ aDSS ]] && ciphers+=", $a_dss"
[[ "$cipher" =~ aDH ]] && ciphers+=", $a_dh"
[[ "$cipher" =~ aECDH ]] && ciphers+=", $a_ecdh"
[[ "$cipher" =~ aECDSA ]] && ciphers+=", $a_ecdsa"
[[ "$cipher" =~ aGOST ]] && ciphers+=", $a_gost"
[[ -z "$ciphers" ]] && return 1
ciphers+=", 00,ff"
fi
[[ -z "$sni_used" ]] && sni="$SNI" && SNI=""
tls_sockets "${tls_version:2:2}" "${ciphers:2}" "all" "00,12,00,00$extra_extns"
success=$?
[[ -z "$sni_used" ]] && SNI="$sni"
if ( [[ $success -eq 0 ]] || [[ $success -eq 2 ]] ) && \
grep -a 'TLS server extension ' "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" | \
grep -aq "signed certificate timestamps"; then
tm_out "TLS extension"
return 0
fi
fi
if [[ $SERVICE != HTTP ]] && [[ "$CLIENT_AUTH" != required ]]; then
# At the moment Certificate Transparency only applies to HTTPS.
tm_out "N/A"
else
tm_out "--"
fi
return 0
}
# replacement for inline $OPENSSL x509 -noout -in $HOSTCERT -serial
# and $OPENSSL x509 -noout -in $HOSTCERT -fingerprint -sha256/-sha1
#
determine_cert_fingerprint_serial() {
local cert="$1"
local ossl_command="$2"
local result=""
result="$($OPENSSL x509 -noout $ossl_command 2>>$ERRFILE <<< "$cert")"
# remove strings in text output, colon only appear in fingerprints
result="${result//Fingerprint=}"
result="${result//serial=}"
result="${result//:/}"
result="${result//SHA1 /}"
result="${result//SHA256 /}"
safe_echo "$result"
}
# Returns startdate, enddate, diffseconds, days2expire as CSVs as strings
# arg1: human readable text string for certificate (openssl x509 -text -noout)
#
determine_dates_certificate() {
local cert_txt="$1"
local startdate enddate yearnow y m d yearstart clockstart yearend clockend
local diffseconds=0 days2expire=0
local -i secsaday=86400
startdate="${cert_txt#*Validity*Not Before: }"
# FreeBSD + OSX can't swallow the leading blank:
startdate="${startdate%%GMT*}GMT"
enddate="${cert_txt#*Validity*Not Before: *Not After : }"
enddate="${enddate%%GMT*}GMT"
# Now we have a normalized enddate and startdate like "Feb 27 10:03:20 2017 GMT" -- also for OpenBSD
if "$HAS_OPENBSDDATE"; then
# Best we want to do under old versions of OpenBSD, first just remove the GMT and keep start/endate for later output
startdate="$(parse_date "$startdate" "+%s")"
enddate="$(parse_date "$enddate" "+%s")"
# Now we extract a date block and a time block which we need for later output
startdate="$(parse_date "$startdate" +"%F %H:%M" "%b %d %T %Y %Z")"
enddate="$(parse_date "$enddate" +"%F %H:%M" "%b %d %T %Y %Z")"
read -r yearstart clockstart <<< "$startdate"
read -r yearend clockend <<< "$enddate"
debugme echo "$yearstart, $clockstart"
debugme echo "$yearend, $clockend"
y=$(( ${yearend:0:4} - ${yearstart:0:4} ))
m=$(( ${yearend:5:1} - ${yearstart:5:1} + ${yearend:6:1} - ${yearstart:6:1} ))
d=$(( ${yearend:8:2} - ${yearstart:8:2} ))
# We take the year, month, days here as old OpenBSD's date is too difficult for real conversion
# see comment in parse_date(). In diffseconds then we have the estimated absolute validity period
diffseconds=$(( d + ((m*30)) + ((y*365)) ))
diffseconds=$((diffseconds * secsaday))
# Now we estimate the days left plus length of month/year:
yearnow="$(date -juz GMT "+%Y-%m-%d %H:%M")"
y=$(( ${yearend:0:4} - ${yearnow:0:4} ))
m=$(( ${yearend:5:1} - ${yearnow:5:1} + ${yearend:6:1} - ${yearnow:6:1} ))
d=$(( ${yearend:8:2} - ${yearnow:8:2} ))
days2expire=$(( d + ((m*30)) + ((y*365)) ))
else
startdate="$(parse_date "$startdate" +"%F %H:%M" "%b %d %T %Y %Z")"
enddate="$(parse_date "$enddate" +"%F %H:%M" "%b %d %T %Y %Z")"
days2expire=$(( $(parse_date "$enddate" "+%s" $'%F %H:%M') - $(LC_ALL=C date "+%s") )) # first in seconds
days2expire=$((days2expire / secsaday))
diffseconds=$(( $(parse_date "$enddate" "+%s" $'%F %H:%M') - $(parse_date "$startdate" "+%s" $'%F %H:%M') ))
fi
safe_echo "$startdate,$enddate,$diffseconds,$days2expire,$yearstart"
}
certificate_info() {
local proto
local -i certificate_number=$1
local -i number_of_certificates=$2
local cert_txt="$3"
local intermediates="$4"
local cipher=$5
local cert_keysize=$6
local cert_type="$7"
local ocsp_response_binary="$8"
local ocsp_response=$9
local ocsp_response_status=${10}
local sni_used="${11}"
local ct="${12}"
local certificate_list_ordering_problem="${13}"
local cert_sig_algo cert_sig_hash_algo cert_key_algo cert_spki_info
local hostcert=""
local common_primes_file="$TESTSSL_INSTALL_DIR/etc/common-primes.txt"
local -i lineno_matched=0
local cert_keyusage cert_ext_keyusage short_keyAlgo
local outok=true
local days2expire secs2warn ocsp_uri crl
local startdate enddate issuer_CN issuer_C issuer_O issuer sans san all_san="" cn
local issuer_DC issuerfinding cn_nosni=""
local cert_fingerprint_sha1 cert_fingerprint_sha2 cert_serial cert
local -a intermediate_certs_txt=()
local policy_oid
local spaces=""
local -i trust_sni=0 trust_nosni=0 diffseconds=0
local has_dns_sans has_dns_sans_nosni
local trust_sni_finding
local -i i certificates_provided=0
local cn_finding trustfinding trustfinding_nosni
local cnok="OK"
local expfinding expok="OK"
local -i ret=0
local json_postfix="" # string to place at the end of JSON IDs when there is more than one certificate
local jsonID="" # string to place at beginning of JSON IDs
local json_rating json_msg
local indent=""
local days2warn2=$DAYS2WARN2
local days2warn1=$DAYS2WARN1
local provides_stapling=false
local caa_node="" all_caa="" caa_property_name="" caa_property_value=""
local response=""
local yearstart
local gt_398=false gt_398warn=false
local gt_825=false gt_825warn=false
local -i secsaday=86400
local first=true
local badocsp=1
if [[ $number_of_certificates -gt 1 ]]; then
[[ $certificate_number -eq 1 ]] && outln
indent=" "
out "$indent"
pr_headline "Server Certificate #$certificate_number"
[[ -z "$sni_used" ]] && pr_underline " (in response to request w/o SNI)"
outln
json_postfix=" <hostCert#${certificate_number}>"
spaces=" "
else
spaces=" "
fi
GOOD_CA_BUNDLE=""
cert_sig_algo="$(awk -F':' '/Signature Algorithm/ { print $2; if (++Match >= 1) exit; }' <<< "$cert_txt")"
cert_sig_algo="${cert_sig_algo// /}"
case "$cert_sig_algo" in
1.3.101.112|ED25519) cert_sig_algo="Ed25519" ;;
1.3.101.113|ED448) cert_sig_algo="Ed448" ;;
esac
cert_key_algo="$(awk -F':' '/Public Key Algorithm:/ { print $2; if (++Match >= 1) exit; }' <<< "$cert_txt")"
cert_key_algo="${cert_key_algo// /}"
case "$cert_key_algo" in
1.3.101.112|E[Dd]25519) cert_key_algo="Ed25519"; cert_keysize=253 ;;
1.3.101.113|E[Dd]448) cert_key_algo="Ed448"; cert_keysize=456 ;;
esac
out "$indent" ; pr_bold " Signature Algorithm "
jsonID="cert_signatureAlgorithm"
case $cert_sig_algo in
sha1WithRSAEncryption)
pr_svrty_medium "SHA1 with RSA"
if [[ "$SERVICE" == HTTP ]] || "$ASSUME_HTTP"; then
out " -- besides: users will receive a "; pr_svrty_high "strong browser WARNING"
fi
outln
fileout "${jsonID}${json_postfix}" "MEDIUM" "SHA1 with RSA"
set_grade_cap "T" "Uses SHA1 algorithm"
;;
sha224WithRSAEncryption)
outln "SHA224 with RSA"
fileout "${jsonID}${json_postfix}" "INFO" "SHA224 with RSA"
;;
sha256WithRSAEncryption)
prln_svrty_good "SHA256 with RSA"
fileout "${jsonID}${json_postfix}" "OK" "SHA256 with RSA"
;;
sha384WithRSAEncryption)
prln_svrty_good "SHA384 with RSA"
fileout "${jsonID}${json_postfix}" "OK" "SHA384 with RSA"
;;
sha512WithRSAEncryption)
prln_svrty_good "SHA512 with RSA"
fileout "${jsonID}${json_postfix}" "OK" "SHA512 with RSA"
;;
ecdsa-with-SHA1)
prln_svrty_medium "ECDSA with SHA1"
fileout "${jsonID}${json_postfix}" "MEDIUM" "ECDSA with SHA1"
set_grade_cap "T" "Uses SHA1 algorithm"
;;
ecdsa-with-SHA224)
outln "ECDSA with SHA224"
fileout "${jsonID}${json_postfix}" "INFO" "ECDSA with SHA224"
;;
ecdsa-with-SHA256)
prln_svrty_good "ECDSA with SHA256"
fileout "${jsonID}${json_postfix}" "OK" "ECDSA with SHA256"
;;
ecdsa-with-SHA384)
prln_svrty_good "ECDSA with SHA384"
fileout "${jsonID}${json_postfix}" "OK" "ECDSA with SHA384"
;;
ecdsa-with-SHA512)
prln_svrty_good "ECDSA with SHA512"
fileout "${jsonID}${json_postfix}" "OK" "ECDSA with SHA512"
;;
dsaWithSHA1)
prln_svrty_medium "DSA with SHA1"
fileout "${jsonID}${json_postfix}" "MEDIUM" "DSA with SHA1"
set_grade_cap "T" "Uses SHA1 algorithm"
;;
dsa_with_SHA224)
outln "DSA with SHA224"
fileout "${jsonID}${json_postfix}" "INFO" "DSA with SHA224"
;;
dsa_with_SHA256)
prln_svrty_good "DSA with SHA256"
fileout "${jsonID}${json_postfix}" "OK" "DSA with SHA256"
;;
rsassaPss)
cert_sig_hash_algo="$(awk '/Signature Algorithm/ { getline; print $0; exit }' <<< "$cert_txt" | sed 's/^.*Hash Algorithm: //')"
case $cert_sig_hash_algo in
sha1)
prln_svrty_medium "RSASSA-PSS with SHA1"
fileout "${jsonID}${json_postfix}" "MEDIUM" "RSASSA-PSS with SHA1"
set_grade_cap "T" "Uses SHA1 algorithm"
;;
sha224)
outln "RSASSA-PSS with SHA224"
fileout "${jsonID}${json_postfix}" "INFO" "RSASSA-PSS with SHA224"
;;
sha256)
prln_svrty_good "RSASSA-PSS with SHA256"
fileout "${jsonID}${json_postfix}" "OK" "RSASSA-PSS with SHA256"
;;
sha384)
prln_svrty_good "RSASSA-PSS with SHA384"
fileout "${jsonID}${json_postfix}" "OK" "RSASSA-PSS with SHA384"
;;
sha512)
prln_svrty_good "RSASSA-PSS with SHA512"
fileout "${jsonID}${json_postfix}" "OK" "RSASSA-PSS with SHA512"
;;
*)
out "RSASSA-PSS with $cert_sig_hash_algo"
prln_warning " (Unknown hash algorithm)"
fileout "${jsonID}${json_postfix}" "DEBUG" "RSASSA-PSS with $cert_sig_hash_algo"
esac
;;
md2*)
prln_svrty_critical "MD2"
fileout "${jsonID}${json_postfix}" "CRITICAL" "MD2"
set_grade_cap "F" "Supports a insecure signature (MD2)"
;;
md4*)
prln_svrty_critical "MD4"
fileout "${jsonID}${json_postfix}" "CRITICAL" "MD4"
;;
md5*)
prln_svrty_critical "MD5"
fileout "${jsonID}${json_postfix}" "CRITICAL" "MD5"
set_grade_cap "F" "Supports a insecure signature (MD5)"
;;
Ed25519|Ed448)
prln_svrty_good "$cert_sig_algo"
fileout "${jsonID}${json_postfix}" "OK" "$cert_sig_algo"
;;
*)
out "$cert_sig_algo ("
pr_warning "FIXME: can't tell whether this is good or not"
outln ")"
fileout "${jsonID}${json_postfix}" "DEBUG" "$cert_sig_algo"
((ret++))
;;
esac
# old, but still interesting: https://blog.hboeck.de/archives/754-Playing-with-the-EFF-SSL-Observatory.html
out "$indent"; pr_bold " Server key size "
jsonID="cert_keySize"
if [[ -z "$cert_keysize" ]]; then
outln "(couldn't determine)"
fileout "${jsonID}${json_postfix}" "cannot be determined"
((ret++))
else
case $cert_key_algo in
*RSA*|*rsa*) short_keyAlgo="RSA";;
*ecdsa*|*ecPublicKey) short_keyAlgo="EC";;
*Ed25519*|*Ed448*) short_keyAlgo="EdDSA";;
*DSA*|*dsa*) short_keyAlgo="DSA";;
*GOST*|*gost*) short_keyAlgo="GOST";;
*dh*|*DH*) short_keyAlgo="DH" ;;
*) pr_fixme "don't know $cert_key_algo "
((ret++)) ;;
esac
out "$short_keyAlgo "
# https://tools.ietf.org/html/rfc4492, https://www.keylength.com/en/compare/
# https://doi.org/10.1007/s00145-001-0009-4
# see https://csrc.nist.gov/publications/detail/sp/800-57-part-1/rev-4/final
# Table 2 @ chapter 5.6.1 (~ p66)
if [[ $cert_key_algo =~ ecdsa ]] || [[ $cert_key_algo =~ ecPublicKey ]]; then
if [[ "$cert_keysize" -le 110 ]]; then # a guess
pr_svrty_critical "$cert_keysize"
json_rating="CRITICAL"; json_msg="$short_keyAlgo $cert_keysize bits"
elif [[ "$cert_keysize" -le 123 ]]; then # a guess
pr_svrty_high "$cert_keysize"
json_rating="HIGH"; json_msg="$short_keyAlgo $cert_keysize bits"
elif [[ "$cert_keysize" -le 163 ]]; then
pr_svrty_medium "$cert_keysize"
json_rating="MEDIUM"; json_msg="$short_keyAlgo $cert_keysize bits"
elif [[ "$cert_keysize" -le 224 ]]; then
out "$cert_keysize"
json_rating="INFO"; json_msg="$short_keyAlgo $cert_keysize bits"
elif [[ "$cert_keysize" -le 533 ]]; then
pr_svrty_good "$cert_keysize"
json_rating="OK"; json_msg="$short_keyAlgo $cert_keysize bits"
else
out "keysize: $cert_keysize (not expected, FIXME)"
json_rating="DEBUG"; json_msg=" $cert_keysize bits (not expected)"
((ret++))
fi
out " bits"
set_key_str_score "$short_keyAlgo" "$cert_keysize"
elif [[ $cert_key_algo =~ RSA ]] || [[ $cert_key_algo =~ rsa ]] || [[ $cert_key_algo =~ dsa ]] || \
[[ $cert_key_algo =~ dhKeyAgreement ]] || [[ $cert_key_algo == X9.42\ DH ]]; then
if [[ "$cert_keysize" -le 512 ]]; then
pr_svrty_critical "$cert_keysize"
out " bits"
json_rating="CRITICAL"; json_msg="$short_keyAlgo $cert_keysize bits"
elif [[ "$cert_keysize" -le 768 ]]; then
pr_svrty_high "$cert_keysize"
out " bits"
json_rating="HIGH"; json_msg="$short_keyAlgo $cert_keysize bits"
elif [[ "$cert_keysize" -le 1024 ]]; then
pr_svrty_medium "$cert_keysize"
out " bits"
json_rating="MEDIUM"; json_msg="$short_keyAlgo $cert_keysize bits"
elif [[ "$cert_keysize" -le 2048 ]]; then
out "$cert_keysize bits"
json_rating="INFO"; json_msg="$short_keyAlgo $cert_keysize bits"
elif [[ "$cert_keysize" -le 4096 ]]; then
pr_svrty_good "$cert_keysize"
json_rating="OK"; json_msg="$short_keyAlgo $cert_keysize bits"
out " bits"
else
pr_warning "weird key size: $cert_keysize bits"; out " (could cause compatibility problems)"
json_rating="WARN"; json_msg="$cert_keysize bits (Odd)"
((ret++))
fi
set_key_str_score "$short_keyAlgo" "$cert_keysize"
elif [[ $cert_key_algo == Ed* ]]; then
pr_svrty_good "$cert_key_algo"
json_rating="OK"; json_msg="$short_keyAlgo $cert_key_algo"
set_key_str_score "$short_keyAlgo" "$cert_keysize"
else
out "$cert_key_algo + $cert_keysize bits ("
pr_warning "FIXME: can't tell whether this is good or not"
out ")"
json_rating="WARN"; json_msg="Server keys $cert_keysize bits, unknown public key algorithm $cert_key_algo"
((ret++))
fi
fi
case "$short_keyAlgo" in
"RSA") cert_spki_info="${cert_txt##*Subject Public Key Info:}"
cert_spki_info="${cert_spki_info##*Public Key Algorithm:}"
cert_spki_info="${cert_spki_info#*Exponent:}"
cert_spki_info="$(strip_leading_space "$cert_spki_info")"
cert_spki_info="${cert_spki_info%%[[:space:]]*}"
if [[ -n "$cert_spki_info" ]]; then
if [[ $cert_spki_info -eq 1 ]]; then
out " (exponent is "; pr_svrty_critical "$cert_spki_info"; out ")"
json_rating="CRITICAL"
set_grade_cap "F" "RSA certificate uses exponent of 1"
else
out " (exponent is $cert_spki_info)"
fi
json_msg+=" (exponent is $cert_spki_info)"
fi
;;
"EC") cert_spki_info="${cert_txt##*Subject Public Key Info:}"
cert_spki_info="${cert_spki_info##*Public Key Algorithm:}"
cert_spki_info="${cert_spki_info##*ASN1 OID: }"
[[ "$cert_spki_info" =~ NIST\ CURVE:\ ]] && cert_spki_info="${cert_spki_info##*NIST CURVE: }"
cert_spki_info="${cert_spki_info%%[[:space:]]*}"
cert_spki_info="$(strip_lf "$(strip_spaces "$cert_spki_info")")"
if [[ -n "$cert_spki_info" ]]; then
out " (curve $cert_spki_info)"
json_msg+=" (curve $cert_spki_info)"
fi
;;
"DH") if [[ -s "$common_primes_file" ]]; then
cert_spki_info="${cert_txt##*Subject Public Key Info:}"
cert_spki_info="${cert_spki_info##*Public Key Algorithm:}"
cert_spki_info="$(awk '/prime:|P:/,/generator:|G:/' <<< "$cert_spki_info" | grep -Ev "prime|P:|generator|G:")"
cert_spki_info="$(strip_spaces "$(colon_to_spaces "$(newline_to_spaces "$cert_spki_info")")")"
[[ "${cert_spki_info:0:2}" == 00 ]] && cert_spki_info="${cert_spki_info:2}"
cert_spki_info="$(toupper "$cert_spki_info")"
lineno_matched=$(grep -n "$cert_spki_info" "$common_primes_file" 2>/dev/null | awk -F':' '{ print $1 }')
if [[ "$lineno_matched" -ne 0 ]]; then
cert_spki_info="$(awk "NR == $lineno_matched-1" "$common_primes_file" | awk -F'"' '{ print $2 }')"
out " ($cert_spki_info)"
json_msg+=" ($cert_spki_info)"
fi
fi
;;
esac
outln
fileout "${jsonID}${json_postfix}" "$json_rating" "$json_msg"
out "$indent"; pr_bold " Server key usage ";
outok=true
jsonID="cert_keyUsage"
cert_keyusage="$(strip_leading_space "$(awk '/X509v3 Key Usage:/ { getline; print $0 }' <<< "$cert_txt")")"
if [[ -n "$cert_keyusage" ]]; then
outln "$cert_keyusage"
if ( [[ " $cert_type " =~ \ RSASig\ ]] || [[ " $cert_type " =~ \ DSA\ ]] || [[ " $cert_type " =~ \ ECDSA\ ]] || [[ " $cert_type " =~ \ EdDSA\ ]] ) && \
[[ ! "$cert_keyusage" =~ Digital\ Signature ]]; then
prln_svrty_high "$indent Certificate incorrectly used for digital signatures"
fileout "${jsonID}${json_postfix}" "HIGH" "Certificate incorrectly used for digital signatures: \"$cert_keyusage\""
outok=false
fi
if [[ " $cert_type " =~ \ RSAKMK\ ]] && [[ ! "$cert_keyusage" =~ Key\ Encipherment ]]; then
prln_svrty_high "$indent Certificate incorrectly used for key encipherment"
fileout "${jsonID}${json_postfix}" "HIGH" "Certificate incorrectly used for key encipherment: \"$cert_keyusage\""
outok=false
fi
if ( [[ " $cert_type " =~ \ DH\ ]] || [[ " $cert_type " =~ \ ECDH\ ]] ) && \
[[ ! "$cert_keyusage" =~ Key\ Agreement ]]; then
prln_svrty_high "$indent Certificate incorrectly used for key agreement"
fileout "${jsonID}${json_postfix}" "HIGH" "Certificate incorrectly used for key agreement: \"$cert_keyusage\""
outok=false
fi
else
outln "--"
fileout "${jsonID}${json_postfix}" "INFO" "No server key usage information"
outok=false
fi
if "$outok"; then
fileout "${jsonID}${json_postfix}" "INFO" "$cert_keyusage"
fi
out "$indent"; pr_bold " Server extended key usage ";
jsonID="cert_extKeyUsage"
outok=true
cert_ext_keyusage="$(strip_leading_space "$(awk '/X509v3 Extended Key Usage:/ { getline; print $0 }' <<< "$cert_txt")")"
if [[ -n "$cert_ext_keyusage" ]]; then
outln "$cert_ext_keyusage"
if [[ ! "$cert_ext_keyusage" =~ "TLS Web Server Authentication" ]] && [[ ! "$cert_ext_keyusage" =~ "Any Extended Key Usage" ]]; then
prln_svrty_high "$indent Certificate incorrectly used for TLS Web Server Authentication"
fileout "${jsonID}${json_postfix}" "HIGH" "Certificate incorrectly used for TLS Web Server Authentication: \"$cert_ext_keyusage\""
outok=false
fi
else
outln "--"
fileout "${jsonID}${json_postfix}" "INFO" "No server extended key usage information"
outok=false
fi
if "$outok"; then
fileout "${jsonID}${json_postfix}" "INFO" "$cert_ext_keyusage"
fi
hostcert="$(<$HOSTCERT)"
out "$indent"; pr_bold " Serial / Fingerprints "
cert_serial="$(determine_cert_fingerprint_serial "$hostcert" "-serial")"
fileout "cert_serialNumber${json_postfix}" "INFO" "$cert_serial"
cert_fingerprint_sha1="$(determine_cert_fingerprint_serial "$hostcert" "-fingerprint -sha1")"
outln "$cert_serial / SHA1 $cert_fingerprint_sha1"
fileout "cert_fingerprintSHA1${json_postfix}" "INFO" "${cert_fingerprint_sha1}"
cert_fingerprint_sha2="$(determine_cert_fingerprint_serial "$hostcert" "-fingerprint -sha256")"
fileout "cert_fingerprintSHA256${json_postfix}" "INFO" "${cert_fingerprint_sha2}"
outln "${spaces}SHA256 ${cert_fingerprint_sha2}"
# " " needs to be converted back to lf in JSON/CSV output. watch out leading/ending line containting "CERTIFICATE"
fileout "cert${json_postfix}" "INFO" "$hostcert"
[[ -z $CERT_FINGERPRINT_SHA2 ]] && \
CERT_FINGERPRINT_SHA2="$cert_fingerprint_sha2" ||
CERT_FINGERPRINT_SHA2="$cert_fingerprint_sha2 $CERT_FINGERPRINT_SHA2"
[[ -z $RSA_CERT_FINGERPRINT_SHA2 ]] && \
( [[ $cert_key_algo =~ RSA ]] || [[ $cert_key_algo =~ rsa ]] ) &&
RSA_CERT_FINGERPRINT_SHA2="$cert_fingerprint_sha2"
out "$indent"; pr_bold " Common Name (CN) "
cn_finding="Common Name (CN) : "
cn="$(get_cn_from_cert $HOSTCERT)"
if [[ -n "$cn" ]]; then
pr_italic "$cn"
cn_finding="$cn"
else
cn="no CN field in subject"
out "($cn)"
cn_finding="$cn"
cnok="INFO"
fi
fileout "cert_commonName${json_postfix}" "$cnok" "$cn_finding"
cn_finding=""
if [[ -n "$sni_used" ]]; then
if grep -q "\-\-\-\-\-BEGIN" "$HOSTCERT.nosni"; then
cn_nosni="$(get_cn_from_cert "$HOSTCERT.nosni")"
[[ -z "$cn_nosni" ]] && cn_nosni="no CN field in subject"
fi
debugme tm_out "\"$NODE\" | \"$cn\" | \"$cn_nosni\""
else
debugme tm_out "\"$NODE\" | \"$cn\""
fi
if [[ -z "$sni_used" ]] || [[ "$(toupper "$cn_nosni")" == "$(toupper "$cn")" ]]; then
outln
cn_finding="$cn"
elif [[ -z "$cn_nosni" ]]; then
out " (request w/o SNI didn't succeed";
cn_finding+="request w/o SNI didn't succeed"
if [[ $cert_sig_algo =~ ecdsa ]]; then
out ", usual for EC certificates"
cn_finding+=", usual for EC certificates"
fi
outln ")"
cn_finding+=""
elif [[ "$cn_nosni" == *"no CN field"* ]]; then
outln ", (request w/o SNI: $cn_nosni)"
cn_finding="$cn_nosni"
else
out " (CN in response to request w/o SNI: "; pr_italic "$cn_nosni"; outln ")"
cn_finding="$cn_nosni"
fi
fileout "cert_commonName_wo_SNI${json_postfix}" "INFO" "$cn_finding"
sans=$(grep -A2 "Subject Alternative Name" <<< "$cert_txt" | \
grep -E "DNS:|IP Address:|email:|URI:|DirName:|Registered ID:" | tr ',' '\n' | \
sed -e 's/ *DNS://g' -e 's/ *IP Address://g' -e 's/ *email://g' -e 's/ *URI://g' -e 's/ *DirName://g' \
-e 's/ *Registered ID://g' \
-e 's/ *othername:<unsupported>//g' -e 's/ *X400Name:<unsupported>//g' -e 's/ *EdiPartyName:<unsupported>//g')
# ^^^ CACert
out "$indent"; pr_bold " subjectAltName (SAN) "
jsonID="cert_subjectAltName"
if [[ -n "$sans" ]]; then
while read san; do
[[ -n "$san" ]] && all_san+="$san "
done <<< "$sans"
prln_italic "$(out_row_aligned_max_width "$all_san" "$indent " $TERM_WIDTH)"
fileout "${jsonID}${json_postfix}" "INFO" "$all_san"
else
if [[ $SERVICE == HTTP ]] || "$ASSUME_HTTP"; then
pr_svrty_high "missing (NOT ok)"; outln " -- Browsers are complaining"
fileout "${jsonID}${json_postfix}" "HIGH" "No SAN, browsers are complaining"
else
pr_svrty_medium "missing"; outln " -- no SAN is deprecated"
fileout "${jsonID}${json_postfix}" "MEDIUM" "Providing no SAN is deprecated"
fi
fi
# Determine the issuer now as we need them for host certificate warning
issuer="$($OPENSSL x509 -noout -issuer -nameopt multiline,-align,sname,-esc_msb,utf8,-space_eq 2>>$ERRFILE <<< "$hostcert")"
issuer_CN="$(awk -F'=' '/CN=/ { print $2 }' <<< "$issuer")"
issuer_O="$(awk -F'=' '/O=/ { print $2 }' <<< "$issuer")"
issuer_C="$(awk -F'=' '/ C=/ { print $2 }' <<< "$issuer")"
issuer_DC="$(awk -F'=' '/DC=/ { print $2 }' <<< "$issuer")"
out "$indent"; pr_bold " Trust (hostname) "
compare_server_name_to_cert "$HOSTCERT"
trust_sni=$?
# Find out if the subjectAltName extension is present and contains
# a DNS name, since Section 6.3 of RFC 6125 says:
# Security Warning: A client MUST NOT seek a match for a reference
# identifier of CN-ID if the presented identifiers include a DNS-ID,
# SRV-ID, URI-ID, or any application-specific identifier types
# supported by the client.
has_dns_sans=$HAS_DNS_SANS
case $trust_sni in
0) trustfinding="certificate does not match supplied URI"
set_grade_cap "M" "Domain name mismatch"
;;
1) trustfinding="Ok via SAN" ;;
2) trustfinding="Ok via SAN wildcard" ;;
4) if "$has_dns_sans"; then
trustfinding="via CN, but not SAN"
else
trustfinding="via CN only"
fi
;;
5) trustfinding="Ok via SAN and CN" ;;
6) trustfinding="Ok via SAN wildcard and CN"
;;
8) if "$has_dns_sans"; then
trustfinding="via CN wildcard, but not SAN"
else
trustfinding="via CN (wildcard) only"
fi
;;
9) trustfinding="Ok via CN wildcard and SAN"
;;
10) trustfinding="Ok via SAN wildcard and CN wildcard"
;;
esac
if [[ $trust_sni -eq 0 ]]; then
pr_svrty_high "$trustfinding"
trust_sni_finding="HIGH"
elif ( [[ $trust_sni -eq 4 ]] || [[ $trust_sni -eq 8 ]] ); then
if [[ $SERVICE == HTTP ]] || "$ASSUME_HTTP"; then
# https://bugs.chromium.org/p/chromium/issues/detail?id=308330
# https://bugzilla.mozilla.org/show_bug.cgi?id=1245280
# https://www.chromestatus.com/feature/4981025180483584
pr_svrty_high "$trustfinding"; out " -- Browsers are complaining"
trust_sni_finding="HIGH"
else
pr_svrty_medium "$trustfinding"
trust_sni_finding="MEDIUM"
# we punish CN matching for non-HTTP as it is deprecated https://tools.ietf.org/html/rfc2818#section-3.1
! "$has_dns_sans" && out " -- CN only match is deprecated"
fi
else
pr_svrty_good "$trustfinding"
trust_sni_finding="OK"
fi
if [[ -n "$cn_nosni" ]]; then
compare_server_name_to_cert "$HOSTCERT.nosni"
trust_nosni=$?
has_dns_sans_nosni=$HAS_DNS_SANS
fi
# See issue #733.
if [[ -z "$sni_used" ]]; then
trustfinding_nosni=""
elif ( [[ $trust_sni -eq $trust_nosni ]] && [[ "$has_dns_sans" == "$has_dns_sans_nosni" ]] ) || \
( [[ $trust_sni -eq 0 ]] && [[ $trust_nosni -eq 0 ]] ); then
trustfinding_nosni=" (same w/o SNI)"
elif [[ $trust_nosni -eq 0 ]]; then
if [[ $trust_sni -eq 4 ]] || [[ $trust_sni -eq 8 ]]; then
trustfinding_nosni=" (w/o SNI: certificate does not match supplied URI)"
else
trustfinding_nosni=" (SNI mandatory)"
fi
elif [[ $trust_nosni -eq 4 ]] || [[ $trust_nosni -eq 8 ]] || [[ $trust_sni -eq 4 ]] || [[ $trust_sni -eq 8 ]]; then
case $trust_nosni in
1) trustfinding_nosni=" (w/o SNI: Ok via SAN)" ;;
2) trustfinding_nosni=" (w/o SNI: Ok via SAN wildcard)" ;;
4) if "$has_dns_sans_nosni"; then
trustfinding_nosni=" (w/o SNI: via CN, but not SAN)"
else
trustfinding_nosni=" (w/o SNI: via CN only)"
fi
;;
5) trustfinding_nosni=" (w/o SNI: Ok via SAN and CN)" ;;
6) trustfinding_nosni=" (w/o SNI: Ok via SAN wildcard and CN)" ;;
8) if "$has_dns_sans_nosni"; then
trustfinding_nosni=" (w/o SNI: via CN wildcard, but not SAN)"
else
trustfinding_nosni=" (w/o SNI: via CN (wildcard) only)"
fi
;;
9) trustfinding_nosni=" (w/o SNI: Ok via CN wildcard and SAN)" ;;
10) trustfinding_nosni=" (w/o SNI: Ok via SAN wildcard and CN wildcard)" ;;
esac
elif [[ $trust_sni -ne 0 ]]; then
trustfinding_nosni=" (works w/o SNI)"
else
trustfinding_nosni=" (however, works w/o SNI)"
fi
if [[ -n "$sni_used" ]] || [[ $trust_nosni -eq 0 ]] || ( [[ $trust_nosni -ne 4 ]] && [[ $trust_nosni -ne 8 ]] ); then
outln "$trustfinding_nosni"
elif [[ $SERVICE == HTTP ]] || "$ASSUME_HTTP"; then
prln_svrty_high "$trustfinding_nosni"
else
prln_svrty_medium "$trustfinding_nosni"
fi
fileout "cert_trust${json_postfix}" "$trust_sni_finding" "${trustfinding}${trustfinding_nosni}"
out "$indent"; pr_bold " Chain of trust"; out " "
jsonID="cert_chain_of_trust"
if [[ "$issuer_O" =~ StartCom ]] || [[ "$issuer_O" =~ WoSign ]] || [[ "$issuer_CN" =~ StartCom ]] || [[ "$issuer_CN" =~ WoSign ]]; then
# Shortcut for this special case here.
pr_italic "WoSign/StartCom"; out " are " ; prln_svrty_critical "not trusted anymore (NOT ok)"
fileout "${jsonID}${json_postfix}" "CRITICAL" "Issuer not trusted anymore (WoSign/StartCom)"
set_grade_cap "T" "Untrusted certificate chain"
else
# Also handles fileout, keep error if happened
determine_trust "$jsonID" "$json_postfix" || ((ret++))
fi
# https://fahrplan.events.ccc.de/congress/2010/Fahrplan/attachments/1777_is-the-SSLiverse-a-safe-place.pdf, see p40+
out "$indent"; pr_bold " EV cert"; out " (experimental) "
jsonID="cert_certificatePolicies_EV"
# only the first one, seldom we have two
policy_oid=$(awk '/ .Policy: / { print $2 }' <<< "$cert_txt" | awk 'NR < 2')
if grep -Eq 'Extended Validation|Extended Validated|EV SSL|EV CA' <<< "$issuer" || \
[[ 2.16.840.1.114028.10.1.2 == "$policy_oid" ]] || \
[[ 2.16.840.1.114412.1.3.0.2 == "$policy_oid" ]] || \
[[ 2.16.840.1.114412.2.1 == "$policy_oid" ]] || \
[[ 2.16.578.1.26.1.3.3 == "$policy_oid" ]] || \
[[ 1.3.6.1.4.1.17326.10.14.2.1.2 == "$policy_oid" ]] || \
[[ 1.3.6.1.4.1.17326.10.8.12.1.2 == "$policy_oid" ]] || \
[[ 1.3.6.1.4.1.13177.10.1.3.10 == "$policy_oid" ]] ; then
out "yes "
fileout "${jsonID}${json_postfix}" "OK" "yes"
else
out "no "
fileout "${jsonID}${json_postfix}" "INFO" "no"
fi
debugme echo -n "($(newline_to_spaces "$policy_oid"))"
outln
#TODO: check browser OIDs:
# https://dxr.mozilla.org/mozilla-central/source/security/certverifier/ExtendedValidation.cpp
# https://chromium.googlesource.com/chromium/chromium/+/master/net/base/ev_root_ca_metadata.cc
# https://certs.opera.com/03/ev-oids.xml
# see #967
out "$indent"; pr_bold " Certificate Validity (UTC) "
IFS=',' read -r startdate enddate diffseconds days2expire yearstart < <(determine_dates_certificate "$cert_txt")
# We adjust the thresholds by %50 for LE certificates, relaxing warnings for those certificates.
# . instead of \' because it does not break syntax highlighting in vim
if [[ "$issuer_O" =~ ^Let.s\ Encrypt ]] ; then
days2warn2=$((days2warn2 / 2))
days2warn1=$((days2warn1 / 2))
fi
debugme echo -n "(diffseconds: $diffseconds)"
if ! [[ "$($OPENSSL x509 -checkend 1 2>>$ERRFILE <<< "$hostcert")" =~ \ not\ ]]; then
pr_svrty_critical "expired"
expfinding="expired"
expok="CRITICAL"
set_grade_cap "T" "Certificate expired"
else
# low threshold first
if [[ "$($OPENSSL x509 -checkend $((secsaday*days2warn2)) 2>>$ERRFILE <<< "$hostcert")" =~ \ not\ ]]; then
# high threshold
if [[ "$($OPENSSL x509 -checkend $((secsaday*days2warn1)) 2>>$ERRFILE <<< "$hostcert")" =~ \ not\ ]]; then
pr_svrty_good "$days2expire >= $days2warn1 days"
expfinding+="$days2expire >= $days2warn1 days"
else
pr_svrty_medium "expires < $days2warn1 days ($days2expire)"
expfinding+="expires < $days2warn1 days ($days2expire)"
expok="MEDIUM"
fi
else
pr_svrty_high "expires < $days2warn2 days ($days2expire)"
expfinding+="expires < $days2warn2 days ($days2expire)"
expok="HIGH"
fi
fi
outln " ($startdate --> $enddate)"
fileout "cert_expirationStatus${json_postfix}" "$expok" "$expfinding"
fileout "cert_notBefore${json_postfix}" "INFO" "$startdate" # we assume that the certificate has no start time in the future
fileout "cert_notAfter${json_postfix}" "$expok" "$enddate" # They are in UTC
# Internal certificates or those from appliances often have too high validity periods.
# We check for ~10 years and >~ 5 years
if [[ $diffseconds -ge $((secsaday*365*10)) ]]; then
out "$spaces"
prln_svrty_high ">= 10 years is way too long"
fileout "cert_extlifeSpan${json_postfix}" "HIGH" "$((diffseconds / secsaday)) days"
elif [[ $diffseconds -ge $((secsaday*365*5)) ]]; then
out "$spaces"
prln_svrty_medium ">= 5 years is too long"
fileout "cert_extlifeSpan${json_postfix}" "MEDIUM" "$((diffseconds / secsaday)) days"
elif [[ $diffseconds -ge $((secsaday*398 + 1)) ]]; then
# Also "official" certificates issued from september 1st 2020 (1598918400) aren't supposed
# to be valid longer than 398 days which is 34387200 in epoch seconds
gt_398=true
if "$HAS_OPENBSDDATE"; then
if [[ 20200901 -le ${yearstart//-/} ]]; then
gt_398warn=true
fi
elif [[ $(parse_date "$startdate" "+%s" $'%F %H:%M') -ge 1598918400 ]]; then
gt_398warn=true
fi
# Now, the verdict, depending on the issuing date
out "$spaces"
if "$gt_398warn" && "$gt_398"; then
prln_svrty_medium "> 398 days issued after 2020/09/01 is too long"
fileout "cert_extlifeSpan${json_postfix}" "MEDIUM" "$((diffseconds / secsaday)) > 398 days"
elif "$gt_398"; then
outln ">= 398 days certificate life time but issued before 2020/09/01"
fileout "cert_extlifeSpan${json_postfix}" "INFO" "$((diffseconds / secsaday)) =< 398 days"
fi
elif [[ $diffseconds -ge $((secsaday*825 + 1)) ]]; then
# Also "official" certificates issued from March 1st, 2018 (1517353200) aren't supposed
# to be valid longer than 825 days which is 1517353200 in epoch seconds
gt_825=true
if "$HAS_OPENBSDDATE"; then
if [[ 20180301 -le ${yearstart//-/} ]]; then
gt_825warn=true
fi
elif [[ $(parse_date "$startdate" "+%s" $'%F %H:%M') -ge 1517353200 ]]; then
gt_825warn=true
fi
# Now, the verdict, depending on the issuing date
out "$spaces"
if "$gt_825warn" && "$gt_825"; then
prln_svrty_medium "> 825 days issued after 2018/03/01 is too long"
fileout "cert_extlifeSpan${json_postfix}" "MEDIUM" "$((diffseconds / secsaday)) > 825 days"
elif "$gt_825"; then
outln ">= 825 days certificate life time but issued before 2018/03/01"
fileout "cert_extlifeSpan${json_postfix}" "INFO" "$((diffseconds / secsaday)) =< 825 days"
fi
else
# All is fine with validity period
# We ignore for now certificates < 2018/03/01. On the screen we only show debug info
debugme echo "${spaces}DEBUG: all is fine with total certificate life time"
fileout "cert_extlifeSpan${json_postfix}" "OK" "certificate has no extended life time according to browser forum"
fi
out "$indent"; pr_bold " ETS/\"eTLS\""
out ", visibility info "
jsonID="cert_eTLS"
etsi_ets_visibility_info "${jsonID}${json_postfix}" "$spaces" "$hostcert" "$cert_txt"
# *Currently* this is even listed as a vulnerability (CWE-310, CVE-2019-919), see
# https://nvd.nist.gov/vuln/detail/CVE-2019-9191, https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2019-9191
# For now we leave this here. We may want to change that later or add infos to other sections (FS & vulnerability)
if "$PHONE_OUT"; then
out "$indent"; pr_bold " In pwnedkeys.com DB "
check_pwnedkeys "$HOSTCERT" "$cert_key_algo" "$cert_keysize"
case "$?" in
0) outln "not checked"; fileout "pwnedkeys${json_postfix}" "INFO" "not checked" ;;
1) outln "not in database"; fileout "pwnedkeys${json_postfix}" "INFO" "not in database" ;;
2) pr_svrty_critical "NOT ok --"; outln " key appears in database"; fileout "pwnedkeys${json_postfix}" "CRITICAL" "private key is known" ;;
7) prln_warning "error querying https://v1.pwnedkeys.com"; fileout "pwnedkeys${json_postfix}" "WARN" "connection error" ;;
esac
fi
out "$indent"; pr_bold " Certificate Revocation List "
jsonID="cert_crlDistributionPoints"
# ~ get next 50 lines after pattern , strip until Signature Algorithm and retrieve URIs
crl="$(awk '/X509v3 CRL Distribution/{i=50} i&&i--' <<< "$cert_txt" | awk '/^$/,/^ [a-zA-Z0-9]+|^ Signature Algorithm:/' | awk -F'URI:' '/URI/ { print $2 }')"
if [[ -z "$crl" ]] ; then
fileout "${jsonID}${json_postfix}" "INFO" "--"
outln "--"
else
if [[ $(count_lines "$crl") -eq 1 ]]; then
out "$crl"
if [[ "$expfinding" != "expired" ]]; then
check_revocation_crl "$crl" "cert_crlRevoked${json_postfix}"
ret=$((ret +$?))
fi
outln
else # more than one CRL
first_crl=true
while read -r line; do
if "$first_crl"; then
first_crl=false
else
out "$spaces"
fi
out "$line"
if [[ "$expfinding" != expired ]]; then
check_revocation_crl "$line" "cert_crlRevoked${json_postfix}"
ret=$((ret +$?))
fi
outln
done <<< "$crl"
fi
fileout "${jsonID}${json_postfix}" "INFO" "$crl"
fi
out "$indent"; pr_bold " OCSP URI "
jsonID="cert_ocspURL"
ocsp_uri="$($OPENSSL x509 -noout -ocsp_uri 2>>$ERRFILE <<< "$hostcert")"
if [[ -z "$ocsp_uri" ]]; then
outln "--"
fileout "${jsonID}${json_postfix}" "INFO" "--"
else
if [[ $(count_lines "$ocsp_uri") -eq 1 ]]; then
out "$ocsp_uri"
if [[ "$expfinding" != expired ]]; then
check_revocation_ocsp "$ocsp_uri" "" "cert_ocspRevoked${json_postfix}"
fi
ret=$((ret +$?))
outln
else
first_ocsp=true
while read -r line; do
if "$first_ocsp"; then
first_ocsp=false
else
out "$spaces"
fi
out "$line"
if [[ "$expfinding" != expired ]]; then
check_revocation_ocsp "$line" "" "cert_ocspRevoked${json_postfix}"
ret=$((ret +$?))
fi
outln
done <<< "$ocsp_uri"
fi
fileout "${jsonID}${json_postfix}" "INFO" "$ocsp_uri"
fi
if [[ -z "$ocsp_uri" ]] && [[ -z "$crl" ]]; then
out "$spaces"
pr_svrty_high "NOT ok --"
outln " neither CRL nor OCSP URI provided"
fileout "cert_revocation${json_postfix}" "HIGH" "Neither CRL nor OCSP URI provided"
fi
out "$indent"; pr_bold " OCSP stapling "
jsonID="OCSP_stapling"
if grep -a "OCSP response" <<< "$ocsp_response" | grep -q "no response sent" ; then
if [[ -n "$ocsp_uri" ]]; then
pr_svrty_low "not offered"
fileout "${jsonID}${json_postfix}" "LOW" "not offered"
else
out "not offered"
fileout "${jsonID}${json_postfix}" "INFO" "not offered"
fi
else
if grep -a "OCSP Response Status" <<< "$ocsp_response_status" | grep -q successful; then
pr_svrty_good "offered"
fileout "${jsonID}${json_postfix}" "OK" "offered"
provides_stapling=true
check_revocation_ocsp "" "$ocsp_response_binary" "cert_ocspRevoked${json_postfix}"
elif [[ "$ocsp_response" =~ Responder\ Error: ]]; then
response="$(awk '/Responder Error:/ { print $3 }' <<< "$ocsp_response")"
pr_warning "stapled OCSP response contained an error response from OCSP responder: $response"
fileout "${jsonID}${json_postfix}" "WARN" "stapled OCSP response contained an error response from OCSP responder: $response"
else
if $GOST_STATUS_PROBLEM; then
pr_warning "(GOST servers make problems here, sorry)"
fileout "${jsonID}${json_postfix}" "WARN" "(The GOST server made a problem here, sorry)"
((ret++))
else
out "(response status unknown)"
fileout "${jsonID}${json_postfix}" "OK" " not sure what's going on here, '$ocsp_response'"
debugme grep -a -A20 -B2 "OCSP response" <<< "$ocsp_response"
((ret++))
fi
fi
fi
outln
out "$indent"; pr_bold " OCSP must staple extension ";
must_staple "$json_postfix" "$provides_stapling" "$cert_txt"
out "$indent"; pr_bold " DNS CAA RR"; out " (experimental) "
jsonID="DNS_CAArecord"
caa_node="$NODE"
caa=""
while ( [[ -z "$caa" ]] && [[ ! -z "$caa_node" ]] ); do
caa="$(get_caa_rr_record $caa_node)"
[[ $caa_node =~ '.'$ ]] || caa_node+="."
caa_node=${caa_node#*.}
done
if [[ -n "$caa" ]]; then
pr_svrty_good "available"; out " - please check for match with \"Issuer\" below"
if [[ $(count_lines "$caa") -eq 1 ]]; then
out ": "
else
outln; out "$spaces"
fi
while read caa; do
if [[ -n "$caa" ]]; then
all_caa+="$caa, "
fi
done <<< "$caa"
all_caa=${all_caa%, } # strip trailing comma
pr_italic "$(out_row_aligned_max_width "$all_caa" "$indent " $TERM_WIDTH)"
fileout "${jsonID}${json_postfix}" "OK" "$all_caa"
elif [[ -n "$NODNS" ]]; then
out "(instructed to minimize DNS queries)"
fileout "${jsonID}${json_postfix}" "INFO" "check skipped as instructed"
else
pr_svrty_low "not offered"
fileout "${jsonID}${json_postfix}" "LOW" "--"
fi
outln
out "$indent"; pr_bold " Certificate Transparency ";
jsonID="certificate_transparency"
if [[ "$ct" =~ extension ]]; then
pr_svrty_good "yes"; outln " ($ct)"
fileout "${jsonID}${json_postfix}" "OK" "yes ($ct)"
else
outln "$ct"
fileout "${jsonID}${json_postfix}" "INFO" "$ct"
fi
out "$indent"; pr_bold " Certificates provided"
certificates_provided="$(grep -ac '\-\-\-\-\-BEGIN\ CERTIFICATE\-\-\-\-\-' <<< "$intermediates")"
((certificates_provided++)) # plus host certificate
out " $certificates_provided"
fileout "certs_countServer${json_postfix}" "INFO" "${certificates_provided}"
if "$certificate_list_ordering_problem"; then
prln_svrty_low " (certificate list ordering problem)"
fileout "certs_list_ordering_problem${json_postfix}" "LOW" "yes"
else
fileout "certs_list_ordering_problem${json_postfix}" "INFO" "no"
outln
fi
out "$indent"; pr_bold " Issuer "
jsonID="cert_caIssuers"
if [[ "$issuer_O" == issuer= ]] || [[ "$issuer_O" == issuer=\ ]] || [[ "$issuer_CN" == "$cn" ]]; then
prln_svrty_critical "self-signed (NOT ok)"
fileout "${jsonID}${json_postfix}" "CRITICAL" "selfsigned"
set_grade_cap "T" "Self-signed certificate"
else
issuerfinding="$issuer_CN"
pr_italic "$issuer_CN"
if [[ -z "$issuer_O" ]] && [[ -n "$issuer_DC" ]]; then
for san in $issuer_DC; do
if [[ -z "$issuer_O" ]]; then
issuer_O="${san}"
else
issuer_O="${san}.${issuer_O}"
fi
done
fi
if [[ -n "$issuer_O" ]]; then
issuerfinding+=" ("
out " ("
issuerfinding+="$issuer_O"
pr_italic "$issuer_O"
if [[ -n "$issuer_C" ]]; then
issuerfinding+=" from "
out " from "
issuerfinding+="$issuer_C"
pr_italic "$issuer_C"
fi
issuerfinding+=")"
out ")"
fi
outln
fileout "${jsonID}${json_postfix}" "INFO" "$issuerfinding"
fi
# Now we take care of the intermediate certificates. We basically (should) have them on disk
# as "intermediatecerts.pem" (which could be split into intermediatecert1.crt, intermediatecert2.crt, ..)
# However we do this in RAM which is better as it was passed to this function.
# We should keep in mind though this is somewhat redundant code. We do similar stuff elsewhere,
# e.g. in extract_certificates() and run_hpkp() but don't keep the certificates
# Store all of the text output of the intermediate certificates in an array so that they can
# be used later (e.g., to check their expiration dates).
for (( i=1; i < certificates_provided; i++ )); do
[[ "$intermediates" =~ \-\-\-\-\-BEGIN\ CERTIFICATE\-\-\-\-\- ]] || break
intermediates="${intermediates#*-----BEGIN CERTIFICATE-----}"
cert="${intermediates%%-----END CERTIFICATE-----*}"
intermediates="${intermediates#${cert}-----END CERTIFICATE-----}"
cert="-----BEGIN CERTIFICATE-----${cert}-----END CERTIFICATE-----"
fileout "intermediate_cert <#${i}>${json_postfix}" "INFO" "$cert"
fileout "intermediate_cert_fingerprintSHA256 <#${i}>${json_postfix}" "INFO" "$(determine_cert_fingerprint_serial "$cert" "-fingerprint -sha256")"
intermediate_certs_txt[i]="$($OPENSSL x509 -text -noout 2>/dev/null <<< "$cert")"
# We don't need every value here. For the sake of being consistent here we add the rest
IFS=',' read -r startdate enddate diffseconds days2expire yearstart < <(determine_dates_certificate "${intermediate_certs_txt[i]}")
fileout "intermediate_cert_notBefore <#${i}>${json_postfix}" "INFO" "$startdate"
if $first; then
out "$indent"; pr_bold " Intermediate cert validity "
first=false
else
out "$indent$spaces"
fi
out "#${i}: "
if ! [[ "$($OPENSSL x509 -checkend 1 2>>$ERRFILE <<< "$cert")" =~ \ not\ ]]; then
cn_finding="expired!"
pr_svrty_critical "$cn_finding"
expok="CRITICAL"
elif ! [[ "$($OPENSSL x509 -checkend $((secsaday*20)) 2>>$ERRFILE <<< "$cert")" =~ \ not\ ]]; then
cn_finding="expires <= 20 days"
pr_svrty_high "$cn_finding"
expok="HIGH"
elif ! [[ "$($OPENSSL x509 -checkend $((secsaday*40)) 2>>$ERRFILE <<< "$cert")" =~ \ not\ ]]; then
cn_finding="expires <= 40 days"
pr_svrty_medium "$cn_finding"
expok="MEDIUM"
else
cn_finding="ok > 40 days"
pr_svrty_good "$cn_finding"
expok="OK"
fi
out " ($enddate). "
cn="$(awk -F= '/Subject:.*CN/ { print $NF }' <<< "${intermediate_certs_txt[i]}")"
issuer_CN="$(awk -F= '/Issuer:.*CN/ { print $NF }' <<< "${intermediate_certs_txt[i]}")"
pr_italic "$cn"; out " <-- "; prln_italic "$issuer_CN"
fileout "intermediate_cert_notAfter <#${i}>${json_postfix}" "$expok" "$enddate"
fileout "intermediate_cert_expiration <#${i}>${json_postfix}" "$expok" "$cn_finding"
fileout "intermediate_cert_chain <#${i}>${json_postfix}" "INFO" "$cn <-- $issuer_CN"
done
# Courtesy Hanno Böck (see https://github.com/hannob/badocspcert)
out "$indent"; pr_bold " Intermediate Bad OCSP"
out " (exp.) "
jsonID="intermediate_cert_badOCSP"
for (( i=1; i < certificates_provided; i++ )); do
cert_ext_keyusage="$(awk '/X509v3 Extended Key Usage:/ { getline; print $0 }' <<< "${intermediate_certs_txt[i]}")"
[[ "$cert_ext_keyusage" =~ OCSP\ Signing ]] && badocsp=0 && break
done
if [[ $badocsp -eq 0 ]]; then
prln_svrty_medium "NOT ok"
fileout "${jsonID}${json_postfix}" "MEDIUM" "NOT ok is intermediate certificate ${i}"
else
prln_svrty_good "Ok"
fileout "${jsonID}${json_postfix}" "OK" "intermediate certificate(s) is/are ok"
fi
outln
return $ret
}
run_server_defaults() {
local ciph newhostcert sni
local match_found
local sessticket_lifetime_hint="" sessticket_proto="" lifetime unit
local -i i n
local -i certs_found=0
local -i ret=0
local -a previous_hostcert previous_hostcert_txt previous_hostcert_type
local -a previous_hostcert_issuer previous_intermediates previous_ordering_problem keysize tested_cipher
local -a ocsp_response_binary ocsp_response ocsp_response_status sni_used tls_version ct
local -a ciphers_to_test certificate_type
local -a -i success
local cn_nosni cn_sni sans_nosni sans_sni san tls_extensions client_auth_ca
local cert_compression_methods=""
local using_sockets=true
"$SSL_NATIVE" && using_sockets=false
# Try each public key type once:
# ciphers_to_test[1]: cipher suites using certificates with RSA signature public keys
# ciphers_to_test[2]: cipher suites using certificates with RSA key encipherment public keys
# ciphers_to_test[3]: cipher suites using certificates with DSA signature public keys
# ciphers_to_test[4]: cipher suites using certificates with DH key agreement public keys
# ciphers_to_test[5]: cipher suites using certificates with ECDH key agreement public keys
# ciphers_to_test[6]: cipher suites using certificates with ECDSA signature public keys
# ciphers_to_test[7]: cipher suites using certificates with GOST R 34.10 (either 2001 or 94) public keys
ciphers_to_test[1]="aRSA:eRSA"
ciphers_to_test[2]=""
ciphers_to_test[3]="aDSS:aDH:aECDH:aECDSA:aGOST"
ciphers_to_test[4]=""
ciphers_to_test[5]=""
ciphers_to_test[6]=""
ciphers_to_test[7]=""
ciphers_to_test[8]="tls1_3_RSA"
ciphers_to_test[9]="tls1_3_ECDSA"
ciphers_to_test[10]="tls1_3_EdDSA"
certificate_type[1]="" ; certificate_type[2]=""
certificate_type[3]=""; certificate_type[4]=""
certificate_type[5]="" ; certificate_type[6]=""
certificate_type[7]="" ; certificate_type[8]="RSASig"
certificate_type[9]="ECDSA" ; certificate_type[10]="EdDSA"
for (( n=1; n <= 17 ; n++ )); do
# Some servers use a different certificate if the ClientHello
# specifies TLSv1.1 and doesn't include a server name extension.
# So, for each public key type for which a certificate was found,
# try again, but only with TLSv1.1 and without SNI.
if [[ $n -ne 1 ]] && [[ "$OPTIMAL_PROTO" == -ssl2 ]]; then
ciphers_to_test[n]=""
elif [[ $n -ge 11 ]]; then
ciphers_to_test[n]=""
[[ ${success[n-10]} -eq 0 ]] && [[ $(has_server_protocol "tls1_1") -ne 1 ]] && \
ciphers_to_test[n]="${ciphers_to_test[n-10]}" && certificate_type[n]="${certificate_type[n-10]}"
fi
if [[ -n "${ciphers_to_test[n]}" ]]; then
if [[ $n -ge 11 ]]; then
sni="$SNI"
SNI=""
get_server_certificate "${ciphers_to_test[n]}" "tls1_1"
success[n]=$?
SNI="$sni"
else
get_server_certificate "${ciphers_to_test[n]}"
success[n]=$?
fi
if [[ ${success[n]} -eq 0 ]] && [[ -s "$HOSTCERT" ]]; then
[[ $n -ge 11 ]] && [[ ! -e $HOSTCERT.nosni ]] && cp $HOSTCERT $HOSTCERT.nosni
cp "$TEMPDIR/$NODEIP.get_server_certificate.txt" $TMPFILE
>$ERRFILE
if [[ -z "$sessticket_lifetime_hint" ]]; then
sessticket_lifetime_hint=$(awk '/session ticket life/ { if (!found) print; found=1 }' $TMPFILE)
sessticket_proto="$(get_protocol "$TMPFILE")"
fi
if [[ $n -le 7 ]]; then
ciph="$(get_cipher $TMPFILE)"
if [[ "$ciph" != TLS_* ]] && [[ "$ciph" != SSL_* ]]; then
ciph="$(openssl2rfc "$ciph")"
fi
if [[ "$ciph" == TLS_DHE_RSA_* ]] || [[ "$ciph" == TLS_ECDHE_RSA_* ]] || [[ "$ciph" == TLS_CECPQ1_RSA_* ]]; then
certificate_type[n]="RSASig"
if [[ -z "${ciphers_to_test[n+1]}" ]]; then
ciphers_to_test[n+1]="${ciphers_to_test[n]/aRSA/}"
ciphers_to_test[n+1]="${ciphers_to_test[n+1]/::/:}"
[[ "${ciphers_to_test[n+1]:0:1}" == : ]] && ciphers_to_test[n+1]="${ciphers_to_test[n+1]:1}"
fi
ciphers_to_test[n]="aRSA"
elif [[ "$ciph" == TLS_RSA_* ]] || [[ "$ciph" == SSL_* ]] || [[ "$ciph" == TLS_GOST*_RSA_* ]]; then
certificate_type[n]="RSAKMK"
if [[ -z "${ciphers_to_test[n+1]}" ]]; then
ciphers_to_test[n+1]="${ciphers_to_test[n]/eRSA/}"
ciphers_to_test[n+1]="${ciphers_to_test[n+1]/::/:}"
[[ "${ciphers_to_test[n+1]:0:1}" == : ]] && ciphers_to_test[n+1]="${ciphers_to_test[n+1]:1}"
fi
ciphers_to_test[n]="eRSA"
elif [[ "$ciph" == TLS_DHE_DSS_* ]]; then
certificate_type[n]="DSA"
if [[ -z "${ciphers_to_test[n+1]}" ]]; then
ciphers_to_test[n+1]="${ciphers_to_test[n]/aDSS/}"
ciphers_to_test[n+1]="${ciphers_to_test[n+1]/::/:}"
[[ "${ciphers_to_test[n+1]:0:1}" == : ]] && ciphers_to_test[n+1]="${ciphers_to_test[n+1]:1}"
fi
ciphers_to_test[n]="aDSS"
elif [[ "$ciph" == TLS_DH_* ]]; then
certificate_type[n]="DH"
if [[ -z "${ciphers_to_test[n+1]}" ]]; then
ciphers_to_test[n+1]="${ciphers_to_test[n]/aDH/}"
ciphers_to_test[n+1]="${ciphers_to_test[n+1]/::/:}"
[[ "${ciphers_to_test[n+1]:0:1}" == : ]] && ciphers_to_test[n+1]="${ciphers_to_test[n+1]:1}"
fi
ciphers_to_test[n]="aDH"
elif [[ "$ciph" == TLS_ECDH_* ]]; then
certificate_type[n]="ECDH"
if [[ -z "${ciphers_to_test[n+1]}" ]]; then
ciphers_to_test[n+1]="${ciphers_to_test[n]/aECDH/}"
ciphers_to_test[n+1]="${ciphers_to_test[n+1]/::/:}"
[[ "${ciphers_to_test[n+1]:0:1}" == : ]] && ciphers_to_test[n+1]="${ciphers_to_test[n+1]:1}"
fi
ciphers_to_test[n]="aECDH"
elif [[ "$ciph" == TLS_ECDHE_ECDSA_* ]] || [[ "$ciph" == TLS_CECPQ1_ECDSA_* ]]; then
certificate_type[n]="ECDSA"
if [[ -z "${ciphers_to_test[n+1]}" ]]; then
ciphers_to_test[n+1]="${ciphers_to_test[n]/aECDSA/}"
ciphers_to_test[n+1]="${ciphers_to_test[n+1]/::/:}"
[[ "${ciphers_to_test[n+1]:0:1}" == : ]] && ciphers_to_test[n+1]="${ciphers_to_test[n+1]:1}"
fi
ciphers_to_test[n]="aECDSA"
elif [[ "$ciph" == TLS_GOST* ]]; then
certificate_type[n]="GOST"
if [[ -z "${ciphers_to_test[n+1]}" ]]; then
ciphers_to_test[n+1]="${ciphers_to_test[n]/aGOST/}"
ciphers_to_test[n+1]="${ciphers_to_test[n+1]/::/:}"
[[ "${ciphers_to_test[n+1]:0:1}" == : ]] && ciphers_to_test[n+1]="${ciphers_to_test[n+1]:1}"
fi
ciphers_to_test[n]="aGOST"
fi
fi
# check whether the host's certificate has been seen before
match_found=false
i=1
newhostcert=$(cat $HOSTCERT)
while [[ $i -le $certs_found ]]; do
if [[ "$newhostcert" == "${previous_hostcert[i]}" ]]; then
match_found=true
break;
fi
i=$((i + 1))
done
if ! "$match_found" && [[ $n -ge 11 ]] && [[ $certs_found -ne 0 ]]; then
# A new certificate was found using TLSv1.1 without SNI.
# Check to see if the new certificate should be displayed.
# It should be displayed if it is either a match for the
# $NODE being tested or if it has the same subject
# (CN and SAN) as other certificates for this host.
compare_server_name_to_cert "$HOSTCERT"
[[ $? -ne 0 ]] && success[n]=0 || success[n]=1
if [[ ${success[n]} -ne 0 ]]; then
cn_nosni="$(toupper "$(get_cn_from_cert $HOSTCERT)")"
sans_nosni="$(toupper "$(get_san_dns_from_cert "$HOSTCERT")")"
echo "${previous_hostcert[1]}" > $HOSTCERT
cn_sni="$(toupper "$(get_cn_from_cert $HOSTCERT)")"
# FIXME: Not sure what the matching rule should be. At
# the moment, the no SNI certificate is considered a
# match if the CNs are the same and the SANs (if
# present) contain at least one DNS name in common.
if [[ "$cn_nosni" == "$cn_sni" ]]; then
sans_sni="$(toupper "$(get_san_dns_from_cert "$HOSTCERT")")"
if [[ "$sans_nosni" == "$sans_sni" ]]; then
success[n]=0
else
while read -r san; do
[[ -n "$san" ]] && [[ " $sans_sni " =~ " $san " ]] && success[n]=0 && break
done <<< "$sans_nosni"
fi
fi
fi
# If the certificate found for TLSv1.1 w/o SNI appears to
# be for a different host, then set match_found to true so
# that the new certificate will not be included in the output.
[[ ${success[n]} -ne 0 ]] && match_found=true
fi
if ! "$match_found"; then
certs_found=$(( certs_found + 1))
tested_cipher[certs_found]=${ciphers_to_test[n]}
keysize[certs_found]=$(awk '/Server public key/ { print $(NF-1) }' $TMPFILE)
# If an OCSP response was sent, then get the full
# response so that certificate_info() can determine
# whether it includes a certificate transparency extension.
ocsp_response_binary[certs_found]="$STAPLED_OCSP_RESPONSE"
if grep -a "OCSP response:" $TMPFILE | grep -q "no response sent"; then
ocsp_response[certs_found]="$(grep -a "OCSP response" $TMPFILE)"
else
ocsp_response[certs_found]="$(awk -v n=2 '/OCSP response:/ {start=1; inc=2} /======================================/ { if (start) {inc--} } inc' $TMPFILE)"
fi
ocsp_response_status[certs_found]=$(grep -a "OCSP Response Status" $TMPFILE)
previous_hostcert[certs_found]=$newhostcert
previous_hostcert_txt[certs_found]="$($OPENSSL x509 -noout -text 2>>$ERRFILE <<< "$newhostcert")"
previous_intermediates[certs_found]=$(cat $TEMPDIR/intermediatecerts.pem)
previous_hostcert_issuer[certs_found]=""
[[ -n "${previous_intermediates[certs_found]}" ]] && [[ -r $TEMPDIR/hostcert_issuer.pem ]] && \
previous_hostcert_issuer[certs_found]=$(cat $TEMPDIR/hostcert_issuer.pem)
previous_ordering_problem[certs_found]=$CERTIFICATE_LIST_ORDERING_PROBLEM
[[ $n -ge 11 ]] && sni_used[certs_found]="" || sni_used[certs_found]="$SNI"
tls_version[certs_found]="$DETECTED_TLS_VERSION"
previous_hostcert_type[certs_found]=" ${certificate_type[n]}"
if [[ $DEBUG -ge 1 ]]; then
echo "${previous_hostcert[certs_found]}" > $TEMPDIR/host_certificate_$certs_found.pem
echo "${previous_hostcert_txt[certs_found]}" > $TEMPDIR/host_certificate_$certs_found.txt
fi
else
previous_hostcert_type[i]+=" ${certificate_type[n]}"
fi
fi
fi
done
determine_tls_extensions
"$using_sockets" && cert_compression_methods="$(determine_cert_compression)"
[[ -n "$cert_compression_methods" ]] && [[ "$cert_compression_methods" != "none" ]] && \
extract_new_tls_extensions "$TEMPDIR/$NODEIP.determine_cert_compression.txt"
if [[ $? -eq 0 ]] && [[ "$OPTIMAL_PROTO" != -ssl2 ]]; then
cp "$TEMPDIR/$NODEIP.determine_tls_extensions.txt" $TMPFILE
>$ERRFILE
if [[ -z "$sessticket_lifetime_hint" ]]; then
sessticket_lifetime_hint=$(awk '/session ticket lifetime/ { if (!found) print; found=1 }' $TMPFILE)
sessticket_proto="$(get_protocol "$TMPFILE")"
fi
fi
if "$using_sockets" && ! "$TLS13_ONLY" && [[ -z "$sessticket_lifetime_hint" ]] && [[ "$OPTIMAL_PROTO" != -ssl2 ]]; then
if "$HAS_TLS13" && ( [[ -z "$OPTIMAL_PROTO" ]] || [[ "$OPTIMAL_PROTO" == -tls1_3 ]] ) ; then
# If a session ticket were sent in response to a TLSv1.3 ClientHello, then a session ticket
# would have been found by get_server_certificate(). So, try again with a TLSv1.2 ClientHello.
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -no_tls1_3 -connect $NODEIP:$PORT $PROXY $SNI") </dev/null 2>$ERRFILE >$TMPFILE
else
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS "$OPTIMAL_PROTO" -connect $NODEIP:$PORT $PROXY $SNI") </dev/null 2>$ERRFILE >$TMPFILE
fi
if sclient_connect_successful $? $TMPFILE; then
sessticket_lifetime_hint=$(awk '/session ticket lifetime/ { if (!found) print; found=1 }' $TMPFILE)
sessticket_proto="$(get_protocol "$TMPFILE")"
fi
fi
[[ -z "$sessticket_lifetime_hint" ]] && TLS_TICKETS=false || TLS_TICKETS=true
debugme echo "# certificates found $certs_found"
# Now that all of the server's certificates have been found, determine for
# each certificate whether certificate transparency information is provided.
for (( i=1; i <= certs_found; i++ )); do
ct[i]="$(certificate_transparency "${previous_hostcert_txt[i]}" "${ocsp_response[i]}" "$certs_found" "${tested_cipher[i]}" "${sni_used[i]}" "${tls_version[i]}")"
# If certificate_transparency() called tls_sockets() and found a "signed certificate timestamps" extension,
# then add it to $TLS_EXTENSIONS, since it may not have been found by determine_tls_extensions().
[[ $certs_found -gt 1 ]] && [[ "${ct[i]}" == TLS\ extension ]] && extract_new_tls_extensions "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt"
done
outln
pr_headlineln " Testing server defaults (Server Hello) "
outln
pr_bold " TLS extensions (standard) "
if [[ -z "$TLS_EXTENSIONS" ]]; then
outln "(none)"
fileout "TLS_extensions" "INFO" "(none)"
else
#FIXME: we rather want to have the chance to print each ext in italics or another format.
# Atm is a string of quoted strings -- that needs to be fixed at the root then
# out_row_aligned_max_width() places line breaks at space characters.
# So, in order to prevent the text for an extension from being broken
# across lines, temporarily replace space characters within the text
# of an extension with "}", and then convert the "}" back to space in
# the output of out_row_aligned_max_width().
tls_extensions="${TLS_EXTENSIONS// /{}"
tls_extensions="${tls_extensions//\"{\"/\" \"}"
tls_extensions="$(out_row_aligned_max_width "$tls_extensions" " " $TERM_WIDTH)"
tls_extensions="${tls_extensions//{/ }"
outln "$tls_extensions"
fileout "TLS_extensions" "INFO" "$TLS_EXTENSIONS"
fi
pr_bold " Session Ticket RFC 5077 hint "
jsonID="TLS_session_ticket"
if [[ -z "$sessticket_lifetime_hint" ]]; then
outln "no -- no lifetime advertised"
fileout "${jsonID}" "INFO" "no -- no lifetime advertised"
# it MAY be given a hint of the lifetime of the ticket, see https://tools.ietf.org/html/rfc5077#section-5.6 .
# Sometimes it just does not -- but it then may also support TLS session tickets reuse
else
lifetime=$(grep -a lifetime <<< "$sessticket_lifetime_hint" | sed 's/[A-Za-z:() ]//g')
unit=$(grep -a lifetime <<< "$sessticket_lifetime_hint" | sed -e 's/^.*'"$lifetime"'//' -e 's/[ ()]//g')
out "$lifetime $unit"
if [[ $((3600 * 24)) -lt $lifetime ]]; then
prln_svrty_low " but: FS requires session ticket keys to be rotated < daily !"
fileout "$jsonID" "LOW" "valid for $lifetime $unit (>daily)"
else
outln ", session tickets keys seems to be rotated < daily"
fileout "$jsonID" "INFO" "valid for $lifetime $unit only (<daily)"
fi
fi
pr_bold " SSL Session ID support "
jsonID="SSL_sessionID_support"
if "$NO_SSL_SESSIONID"; then
outln "no"
fileout "$jsonID" "INFO" "no"
else
outln "yes"
fileout "$jsonID" "INFO" "yes"
fi
pr_bold " Session Resumption "
jsonID="sessionresumption_ticket"
sub_session_resumption "$sessticket_proto"
case $? in
0) out "Tickets: yes, "
fileout "$jsonID" "INFO" "supported"
;;
1) out "Tickets no, "
fileout "$jsonID" "INFO" "not supported"
;;
5) pr_warning "Ticket resumption test failed, pls report / "
fileout "$jsonID" "WARN" "check failed, pls report"
((ret++))
;;
6) pr_warning "Client Auth: Ticket resumption test not supported / "
fileout "$jsonID" "WARN" "check couldn't be performed because of client authentication"
;;
7) pr_warning "Connect problem: Ticket resumption test not possible / "
fileout "$jsonID" "WARN" "check failed because of connect problem"
((ret++))
;;
esac
jsonID="sessionresumption_ID"
if "$NO_SSL_SESSIONID"; then
outln "ID: no"
fileout "$jsonID" "INFO" "No Session ID, no resumption"
else
sub_session_resumption "$sessticket_proto" ID
case $? in
0) outln "ID: yes"
fileout "$jsonID" "INFO" "supported"
;;
1|2) outln "ID: no"
fileout "$jsonID" "INFO" "not supported"
;;
5) prln_warning "ID resumption test failed, pls report"
fileout "$jsonID" "WARN" "check failed, pls report"
((ret++))
;;
6) prln_warning "Client Auth: ID resumption test not supported"
fileout "$jsonID" "WARN" "check couldn't be performed because of client authentication"
;;
7) prln_warning "ID resumption test failed"
fileout "$jsonID" "WARN" "check failed because of connect problem"
((ret++))
;;
esac
fi
tls_time
jsonID="cert_compression"
if ! "$using_sockets"; then
# At the moment support for certificate compression can only be
# tested using tls_sockets().
:
elif [[ $(has_server_protocol "tls1_3") -eq 0 ]]; then
jsonID="certificate_compression"
pr_bold " Certificate Compression "
outln "$cert_compression_methods"
fileout "$jsonID" "INFO" "$cert_compression_methods"
else
fileout "$jsonID" "INFO" "N/A"
fi
jsonID="clientAuth"
pr_bold " Client Authentication "
outln "$CLIENT_AUTH"
fileout "$jsonID" "INFO" "$CLIENT_AUTH"
if [[ "$CLIENT_AUTH" != none ]]; then
jsonID="clientAuth_CA_list"
pr_bold " CA List for Client Auth "
out_row_aligned "$CLIENT_AUTH_CA_LIST" " "
if [[ "$CLIENT_AUTH_CA_LIST" == empty ]] || [[ $(count_lines "$CLIENT_AUTH_CA_LIST") -eq 1 ]]; then
fileout "$jsonID" "INFO" "$CLIENT_AUTH_CA_LIST"
else
i=1
while read client_auth_ca; do
fileout "$jsonID #$i" "INFO" "$client_auth_ca"
i+=1
done <<< "$CLIENT_AUTH_CA_LIST"
fi
fi
if [[ -n "$SNI" ]] && [[ $certs_found -ne 0 ]] && [[ ! -e $HOSTCERT.nosni ]]; then
# no cipher suites specified here. We just want the default vhost subject
if ! "$HAS_TLS13" && [[ $(has_server_protocol "tls1_3") -eq 0 ]]; then
sni="$SNI" ; SNI=""
mv $HOSTCERT $HOSTCERT.save
# Send same list of cipher suites as OpenSSL 1.1.1 sends (but with
# all 5 TLSv1.3 ciphers offered.
tls_sockets "04" \
"c0,2c, c0,30, 00,9f, cc,a9, cc,a8, cc,aa, c0,2b, c0,2f,
00,9e, c0,24, c0,28, 00,6b, c0,23, c0,27, 00,67, c0,0a,
c0,14, 00,39, c0,09, c0,13, 00,33, 00,9d, 00,9c, 13,02,
13,03, 13,01, 13,04, 13,05, 00,3d, 00,3c, 00,35, 00,2f,
00,ff" \
"all+"
success[0]=$?
if [[ ${success[0]} -eq 0 ]] || [[ ${success[0]} -eq 2 ]]; then
if [[ -s $HOSTCERT ]]; then
mv $HOSTCERT $HOSTCERT.nosni
else
# The connection was successful, but the certificate could
# not be obtained (probably because the connection was TLS 1.3
# and $OPENSSL does not support the key exchange group that was
# selected). So, try again using OpenSSL (which will not use a TLS 1.3
# ClientHello).
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $OPTIMAL_PROTO") 2>>$ERRFILE </dev/null | \
awk '/-----BEGIN/,/-----END/ { print $0 }' >$HOSTCERT.nosni
fi
else
>$HOSTCERT.nosni
fi
mv $HOSTCERT.save $HOSTCERT
SNI="$sni"
else
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $OPTIMAL_PROTO") 2>>$ERRFILE </dev/null | \
awk '/-----BEGIN/,/-----END/ { print $0 }' >$HOSTCERT.nosni
fi
elif [[ $certs_found -eq 0 ]] && [[ -s "$HOSTCERT" ]]; then
outln
generic_nonfatal "Client problem, shouldn't happen: Host certificate found but we can't continue with \"server defaults\"."
elif [[ $certs_found -eq 0 ]]; then
outln
if $TLS13_ONLY; then
generic_nonfatal "Client problem: We need openssl supporting TLS 1.3. We can't continue with \"server defaults\" as we cannot retrieve the certificate. "
else
generic_nonfatal "Client problem: No server certificate could be retrieved. Thus we can't continue with \"server defaults\"."
fi
fi
[[ $DEBUG -ge 1 ]] && [[ -e $HOSTCERT.nosni ]] && $OPENSSL x509 -in $HOSTCERT.nosni -text -noout 2>>$ERRFILE > $HOSTCERT.nosni.txt
fileout "cert_numbers" "INFO" "$certs_found"
for (( i=1; i <= certs_found; i++ )); do
echo "${previous_hostcert[i]}" > $HOSTCERT
echo "${previous_intermediates[i]}" > $TEMPDIR/intermediatecerts.pem
echo "${previous_hostcert_issuer[i]}" > $TEMPDIR/hostcert_issuer.pem
certificate_info "$i" "$certs_found" "${previous_hostcert_txt[i]}" "${previous_intermediates[i]}" \
"${tested_cipher[i]}" "${keysize[i]}" "${previous_hostcert_type[i]}" \
"${ocsp_response_binary[i]}" "${ocsp_response[i]}" \
"${ocsp_response_status[i]}" "${sni_used[i]}" "${ct[i]}" \
"${previous_ordering_problem[i]}"
[[ $? -ne 0 ]] && ((ret++))
done
return $ret
}
get_session_ticket_lifetime_from_serverhello() {
awk '/session ticket.*lifetime/ { print $(NF-1) "$1" }'
}
get_san_dns_from_cert() {
echo "$($OPENSSL x509 -in "$1" -noout -text 2>>$ERRFILE | \
grep -A2 "Subject Alternative Name" | tr ',' '\n' | grep "DNS:" | \
sed -e 's/DNS://g' -e 's/ //g')"
}
run_fs() {
local -i sclient_success
local fs_offered=false ecdhe_offered=false ffdhe_offered=false
local fs_tls13_offered=false
local protos_to_try proto hexc dash fs_cipher sslvers auth mac export curve dhlen
local -a hexcode normalized_hexcode ciph rfc_ciph kx enc ciphers_found sigalg ossl_supported
# generated from 'kEECDH:kEDH:!aNULL:!eNULL:!DES:!3DES:!RC4' with openssl 1.0.2i and openssl 1.1.0
local fs_cipher_list="DHE-DSS-AES128-GCM-SHA256:DHE-DSS-AES128-SHA256:DHE-DSS-AES128-SHA:DHE-DSS-AES256-GCM-SHA384:DHE-DSS-AES256-SHA256:DHE-DSS-AES256-SHA:DHE-DSS-CAMELLIA128-SHA256:DHE-DSS-CAMELLIA128-SHA:DHE-DSS-CAMELLIA256-SHA256:DHE-DSS-CAMELLIA256-SHA:DHE-DSS-SEED-SHA:DHE-RSA-AES128-CCM8:DHE-RSA-AES128-CCM:DHE-RSA-AES128-GCM-SHA256:DHE-RSA-AES128-SHA256:DHE-RSA-AES128-SHA:DHE-RSA-AES256-CCM8:DHE-RSA-AES256-CCM:DHE-RSA-AES256-GCM-SHA384:DHE-RSA-AES256-SHA256:DHE-RSA-AES256-SHA:DHE-RSA-CAMELLIA128-SHA256:DHE-RSA-CAMELLIA128-SHA:DHE-RSA-CAMELLIA256-SHA256:DHE-RSA-CAMELLIA256-SHA:DHE-RSA-CHACHA20-POLY1305-OLD:DHE-RSA-CHACHA20-POLY1305:DHE-RSA-SEED-SHA:ECDHE-ECDSA-AES128-CCM8:ECDHE-ECDSA-AES128-CCM:ECDHE-ECDSA-AES128-GCM-SHA256:ECDHE-ECDSA-AES128-SHA256:ECDHE-ECDSA-AES128-SHA:ECDHE-ECDSA-AES256-CCM8:ECDHE-ECDSA-AES256-CCM:ECDHE-ECDSA-AES256-GCM-SHA384:ECDHE-ECDSA-AES256-SHA384:ECDHE-ECDSA-AES256-SHA:ECDHE-ECDSA-CAMELLIA128-SHA256:ECDHE-ECDSA-CAMELLIA256-SHA384:ECDHE-ECDSA-CHACHA20-POLY1305-OLD:ECDHE-ECDSA-CHACHA20-POLY1305:ECDHE-RSA-AES128-GCM-SHA256:ECDHE-RSA-AES128-SHA256:ECDHE-RSA-AES128-SHA:ECDHE-RSA-AES256-GCM-SHA384:ECDHE-RSA-AES256-SHA384:ECDHE-RSA-AES256-SHA:ECDHE-RSA-CAMELLIA128-SHA256:ECDHE-RSA-CAMELLIA256-SHA384:ECDHE-RSA-CHACHA20-POLY1305-OLD:ECDHE-RSA-CHACHA20-POLY1305"
local fs_hex_cipher_list="" ciphers_to_test tls13_ciphers_to_test
local ecdhe_cipher_list="" tls13_cipher_list="" ecdhe_cipher_list_hex="" ffdhe_cipher_list_hex=""
local curves_hex=("00,01" "00,02" "00,03" "00,04" "00,05" "00,06" "00,07" "00,08" "00,09" "00,0a" "00,0b" "00,0c" "00,0d" "00,0e" "00,0f" "00,10" "00,11" "00,12" "00,13" "00,14" "00,15" "00,16" "00,17" "00,18" "00,19" "00,1a" "00,1b" "00,1c" "00,1d" "00,1e")
local -a curves_ossl=("sect163k1" "sect163r1" "sect163r2" "sect193r1" "sect193r2" "sect233k1" "sect233r1" "sect239k1" "sect283k1" "sect283r1" "sect409k1" "sect409r1" "sect571k1" "sect571r1" "secp160k1" "secp160r1" "secp160r2" "secp192k1" "prime192v1" "secp224k1" "secp224r1" "secp256k1" "prime256v1" "secp384r1" "secp521r1" "brainpoolP256r1" "brainpoolP384r1" "brainpoolP512r1" "X25519" "X448")
local -a curves_ossl_output=("K-163" "sect163r1" "B-163" "sect193r1" "sect193r2" "K-233" "B-233" "sect239k1" "K-283" "B-283" "K-409" "B-409" "K-571" "B-571" "secp160k1" "secp160r1" "secp160r2" "secp192k1" "P-192" "secp224k1" "P-224" "secp256k1" "P-256" "P-384" "P-521" "brainpoolP256r1" "brainpoolP384r1" "brainpoolP512r1" "X25519" "X448")
local -ai curves_bits=(163 162 163 193 193 232 233 238 281 282 407 409 570 570 161 161 161 192 192 225 224 256 256 384 521 256 384 512 253 448)
# Many curves have been deprecated, and RFC 8446, Appendix B.3.1.4, states
# that these curves MUST NOT be offered in a TLS 1.3 ClientHello.
local -a curves_deprecated=("true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "true" "false" "false" "false" "true" "true" "true" "false" "false")
local -a ffdhe_groups_hex=("01,00" "01,01" "01,02" "01,03" "01,04")
local -a ffdhe_groups_output=("ffdhe2048" "ffdhe3072" "ffdhe4096" "ffdhe6144" "ffdhe8192")
local -a supported_curve
local -i nr_supported_ciphers=0 nr_curves=0 nr_ossl_curves=0 i j low high
local fs_ciphers curves_offered="" curves_to_test temp
local len1 len2 curve_found
local key_bitstring quality_str
local -i len_dh_p quality
local has_dh_bits="$HAS_DH_BITS"
local using_sockets=true
local jsonID="FS"
"$SSL_NATIVE" && using_sockets=false
"$FAST" && using_sockets=false
[[ $TLS_NR_CIPHERS == 0 ]] && using_sockets=false
outln
pr_headline " Testing robust forward secrecy (FS)"; prln_underline " -- omitting Null Authentication/Encryption, 3DES, RC4 "
if ! "$using_sockets"; then
[[ $TLS_NR_CIPHERS == 0 ]] && ! "$SSL_NATIVE" && ! "$FAST" && pr_warning " Cipher mapping not available, doing a fallback to openssl"
if ! "$HAS_DH_BITS" && "$WIDE"; then
[[ $TLS_NR_CIPHERS == 0 ]] && ! "$SSL_NATIVE" && ! "$FAST" && out "."
pr_warning " (Your $OPENSSL cannot show DH/ECDH bits)"
fi
outln
fi
if "$using_sockets" || [[ $OSSL_VER_MAJOR -lt 1 ]]; then
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
fs_cipher="${TLS_CIPHER_RFC_NAME[i]}"
hexc="${TLS_CIPHER_HEXCODE[i]}"
if ( [[ "$fs_cipher" == "TLS_DHE_"* ]] || [[ "$fs_cipher" == "TLS_ECDHE_"* ]] || [[ "${hexc:2:2}" == "13" ]] ) && \
[[ ! "$fs_cipher" =~ NULL ]] && [[ ! "$fs_cipher" =~ DES ]] && [[ ! "$fs_cipher" =~ RC4 ]] && \
[[ ! "$fs_cipher" =~ PSK ]] && ( "$using_sockets" || "${TLS_CIPHER_OSSL_SUPPORTED[i]}" ); then
fs_hex_cipher_list+=", ${hexc:2:2},${hexc:7:2}"
ciph[nr_supported_ciphers]="${TLS_CIPHER_OSSL_NAME[i]}"
rfc_ciph[nr_supported_ciphers]="${TLS_CIPHER_RFC_NAME[i]}"
kx[nr_supported_ciphers]="${TLS_CIPHER_KX[i]}"
enc[nr_supported_ciphers]="${TLS_CIPHER_ENC[i]}"
ciphers_found[nr_supported_ciphers]=false
sigalg[nr_supported_ciphers]=""
ossl_supported[nr_supported_ciphers]="${TLS_CIPHER_OSSL_SUPPORTED[i]}"
hexcode[nr_supported_ciphers]="${hexc:2:2},${hexc:7:2}"
if [[ "${hexc:2:2}" == 00 ]]; then
normalized_hexcode[nr_supported_ciphers]="x${hexc:7:2}"
else
normalized_hexcode[nr_supported_ciphers]="x${hexc:2:2}${hexc:7:2}"
fi
"$using_sockets" && ! "$has_dh_bits" && "$WIDE" && ossl_supported[nr_supported_ciphers]=false
nr_supported_ciphers+=1
fi
done
else
while read -r hexc dash ciph[nr_supported_ciphers] sslvers kx[nr_supported_ciphers] auth enc[nr_supported_ciphers] mac export; do
ciphers_found[nr_supported_ciphers]=false
if [[ "${hexc:2:2}" == 00 ]]; then
normalized_hexcode[nr_supported_ciphers]="x${hexc:7:2}"
else
normalized_hexcode[nr_supported_ciphers]="x${hexc:2:2}${hexc:7:2}"
fi
sigalg[nr_supported_ciphers]=""
ossl_supported[nr_supported_ciphers]=true
nr_supported_ciphers+=1
done < <(actually_supported_osslciphers "$fs_cipher_list" "ALL" "-V")
fi
if [[ $(has_server_protocol "tls1_3") -eq 0 ]]; then
# All TLSv1.3 cipher suites offer robust FS.
sclient_success=0
elif "$using_sockets"; then
tls_sockets "04" "${fs_hex_cipher_list:2}, 00,ff"
sclient_success=$?
[[ $sclient_success -eq 2 ]] && sclient_success=0
else
debugme echo $nr_supported_ciphers
debugme echo $(actually_supported_osslciphers $fs_cipher_list "ALL")
if [[ "$nr_supported_ciphers" -le "$CLIENT_MIN_FS" ]]; then
outln
prln_local_problem "You only have $nr_supported_ciphers FS ciphers on the client side "
fileout "$jsonID" "WARN" "tests skipped as you only have $nr_supported_ciphers FS ciphers on the client site. ($CLIENT_MIN_FS are required)"
return 1
fi
$OPENSSL s_client $(s_client_options "-cipher $fs_cipher_list -ciphersuites "ALL" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE
sclient_success=$?
[[ $sclient_success -eq 0 ]] && [[ $(grep -ac "BEGIN CERTIFICATE" $TMPFILE) -eq 0 ]] && sclient_success=1
fi
if [[ $sclient_success -ne 0 ]]; then
outln
prln_svrty_medium " No ciphers supporting Forward Secrecy (FS) offered"
fileout "$jsonID" "MEDIUM" "No ciphers supporting Forward Secrecy offered"
set_grade_cap "B" "Forward Secrecy (FS) is not supported"
else
outln
fs_offered=true
fs_ciphers=""
pr_svrty_good " FS is offered (OK) "
fileout "$jsonID" "OK" "offered"
if "$WIDE"; then
outln ", ciphers follow (client/browser support is important here) \n"
neat_header
else
out " "
fi
if "$HAS_TLS13"; then
protos_to_try="-no_ssl2 -no_tls1_3"
else
protos_to_try="-no_ssl2"
fi
for proto in $protos_to_try; do
while true; do
ciphers_to_test=""
tls13_ciphers_to_test=""
for (( i=0; i < nr_supported_ciphers; i++ )); do
if ! "${ciphers_found[i]}" && "${ossl_supported[i]}"; then
if [[ "${ciph[i]}" == TLS13* ]] || [[ "${ciph[i]}" == TLS_* ]] || [[ "${ciph[i]}" == AEAD-* ]]; then
tls13_ciphers_to_test+=":${ciph[i]}"
else
ciphers_to_test+=":${ciph[i]}"
fi
fi
done
[[ -z "$ciphers_to_test" ]] && [[ -z "$tls13_ciphers_to_test" ]] && break
$OPENSSL s_client $(s_client_options "$proto -cipher "\'${ciphers_to_test:1}\'" -ciphersuites "\'${tls13_ciphers_to_test:1}\'" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") &>$TMPFILE </dev/null
sclient_connect_successful $? $TMPFILE || break
fs_cipher=$(get_cipher $TMPFILE)
[[ -z "$fs_cipher" ]] && break
for (( i=0; i < nr_supported_ciphers; i++ )); do
[[ "$fs_cipher" == "${ciph[i]}" ]] && break
done
[[ $i -eq $nr_supported_ciphers ]] && break
ciphers_found[i]=true
if [[ "$fs_cipher" == TLS13* ]] || [[ "$fs_cipher" == TLS_* ]] || [[ "$fs_cipher" == AEAD-* ]]; then
fs_tls13_offered=true
"$WIDE" && kx[i]="$(read_dhtype_from_file $TMPFILE)"
fi
if "$WIDE"; then
dhlen=$(read_dhbits_from_file "$TMPFILE" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$WIDE" && "$SHOW_SIGALGO" && grep -q "\-\-\-\-\-BEGIN CERTIFICATE\-\-\-\-\-" $TMPFILE && \
sigalg[i]="$(read_sigalg_from_file "$TMPFILE")"
done
done
if "$using_sockets"; then
for proto in 04 03; do
while true; do
ciphers_to_test=""
for (( i=0; i < nr_supported_ciphers; i++ )); do
! "${ciphers_found[i]}" && ciphers_to_test+=", ${hexcode[i]}"
done
[[ -z "$ciphers_to_test" ]] && break
[[ "$proto" == "04" ]] && [[ ! "$ciphers_to_test" =~ ,\ 13,[0-9a-f][0-9a-f] ]] && break
ciphers_to_test="$(strip_inconsistent_ciphers "$proto" "$ciphers_to_test")"
[[ -z "$ciphers_to_test" ]] && break
if "$WIDE" && "$SHOW_SIGALGO"; then
tls_sockets "$proto" "${ciphers_to_test:2}, 00,ff" "all"
else
tls_sockets "$proto" "${ciphers_to_test:2}, 00,ff" "ephemeralkey"
fi
sclient_success=$?
[[ $sclient_success -ne 0 ]] && [[ $sclient_success -ne 2 ]] && break
fs_cipher=$(get_cipher "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
for (( i=0; i < nr_supported_ciphers; i++ )); do
[[ "$fs_cipher" == "${rfc_ciph[i]}" ]] && break
done
[[ $i -eq $nr_supported_ciphers ]] && break
ciphers_found[i]=true
if [[ "${kx[i]}" == Kx=any ]]; then
fs_tls13_offered=true
"$WIDE" && kx[i]="$(read_dhtype_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")"
fi
if "$WIDE"; then
dhlen=$(read_dhbits_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$WIDE" && "$SHOW_SIGALGO" && [[ -r "$HOSTCERT" ]] && \
sigalg[i]="$(read_sigalg_from_file "$HOSTCERT")"
done
done
fi
for (( i=0; i < nr_supported_ciphers; i++ )); do
! "${ciphers_found[i]}" && ! "$SHOW_EACH_C" && continue
if "${ciphers_found[i]}"; then
if ( [[ "$DISPLAY_CIPHERNAMES" =~ openssl ]] && [[ "${ciph[i]}" != "-" ]] ) || [[ "${rfc_ciph[i]}" == "-" ]]; then
fs_cipher="${ciph[i]}"
else
fs_cipher="${rfc_ciph[i]}"
fi
fs_ciphers+="$fs_cipher "
if [[ "${ciph[i]}" == ECDHE-* ]] || [[ "${ciph[i]}" == TLS13* ]] || [[ "${ciph[i]}" == TLS_* ]] || \
[[ "${ciph[i]}" == AEAD-* ]] || ( "$using_sockets" && [[ "${rfc_ciph[i]}" == TLS_ECDHE_* ]] ); then
ecdhe_offered=true
ecdhe_cipher_list_hex+=", ${hexcode[i]}"
if [[ "${ciph[i]}" != "-" ]]; then
if [[ "${ciph[i]}" == TLS13* ]] || [[ "${ciph[i]}" == TLS_* ]] || [[ "${ciph[i]}" == AEAD-* ]]; then
tls13_cipher_list+=":$fs_cipher"
else
ecdhe_cipher_list+=":$fs_cipher"
fi
fi
fi
if [[ "${ciph[i]}" == "DHE-"* ]] || ( "$using_sockets" && [[ "${rfc_ciph[i]}" == "TLS_DHE_"* ]] ); then
ffdhe_offered=true
ffdhe_cipher_list_hex+=", ${hexcode[i]}"
elif [[ "${ciph[i]}" == TLS13* ]] || [[ "${ciph[i]}" == TLS_* ]] || [[ "${ciph[i]}" == AEAD-* ]]; then
ffdhe_cipher_list_hex+=", ${hexcode[i]}"
fi
fi
if "$WIDE"; then
neat_list "$(tolower "${normalized_hexcode[i]}")" "${ciph[i]}" "${kx[i]}" "${enc[i]}" "" "${ciphers_found[i]}"
if "$SHOW_EACH_C"; then
if "${ciphers_found[i]}"; then
pr_cipher_quality "${rfc_ciph[i]}" "available"
else
pr_deemphasize "not a/v"
fi
fi
outln "${sigalg[i]}"
fi
done
if ! "$WIDE"; then
if [[ "$COLOR" -le 2 ]]; then
out "$(out_row_aligned_max_width "$fs_ciphers" " " $TERM_WIDTH)"
else
out_row_aligned_max_width_by_entry "$fs_ciphers" " " $TERM_WIDTH pr_cipher_quality
fi
fi
debugme echo $fs_offered
"$WIDE" || outln
fileout "${jsonID}_ciphers" "INFO" "$fs_ciphers"
fi
# find out what elliptic curves are supported.
if "$ecdhe_offered"; then
for curve in "${curves_ossl[@]}"; do
ossl_supported[nr_curves]=false
supported_curve[nr_curves]=false
[[ "$OSSL_SUPPORTED_CURVES" =~ " $curve " ]] && ossl_supported[nr_curves]=true && nr_ossl_curves+=1
nr_curves+=1
done
# OpenSSL limits the number of curves that can be specified in the
# "-curves" option to 28. So, break the list in two if there are more
# than 28 curves supported by OpenSSL.
for j in 1 2; do
if [[ $j -eq 1 ]]; then
if [[ $nr_ossl_curves -le 28 ]]; then
low=0; high=$nr_curves
else
low=0; high=$nr_curves/2
fi
else
if [[ $nr_ossl_curves -le 28 ]]; then
continue # all curves tested in first round
else
low=$nr_curves/2; high=$nr_curves
fi
fi
if "$HAS_TLS13"; then
if "$fs_tls13_offered"; then
protos_to_try="-no_ssl2 -no_tls1_3"
else
protos_to_try="-no_tls1_3"
fi
else
protos_to_try="-no_ssl2"
fi
for proto in $protos_to_try; do
while true; do
curves_to_test=""
for (( i=low; i < high; i++ )); do
if ! "$HAS_TLS13" || ! "${curves_deprecated[i]}" || [[ "$proto" == "-no_tls1_3" ]]; then
"${ossl_supported[i]}" && ! "${supported_curve[i]}" && curves_to_test+=":${curves_ossl[i]}"
fi
done
[[ -z "$curves_to_test" ]] && break
$OPENSSL s_client $(s_client_options "$proto -cipher "\'${ecdhe_cipher_list:1}\'" -ciphersuites "\'${tls13_cipher_list:1}\'" -curves "${curves_to_test:1}" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") &>$TMPFILE </dev/null
sclient_connect_successful $? $TMPFILE || break
temp=$(awk -F': ' '/^Server Temp Key/ { print $2 }' "$TMPFILE")
curve_found="${temp%%,*}"
if [[ "$curve_found" == ECDH ]]; then
curve_found="${temp#*, }"
curve_found="${curve_found%%,*}"
fi
for (( i=low; i < high; i++ )); do
! "${supported_curve[i]}" && [[ "${curves_ossl_output[i]}" == "$curve_found" ]] && break
done
[[ $i -eq $high ]] && break
supported_curve[i]=true
done
done
done
fi
if "$ecdhe_offered" && "$using_sockets"; then
protos_to_try="03"
"$fs_tls13_offered" && protos_to_try="04 03"
for proto in $protos_to_try; do
if [[ "$proto" == 03 ]]; then
ecdhe_cipher_list_hex="$(strip_inconsistent_ciphers "03" "$ecdhe_cipher_list_hex")"
[[ -z "$ecdhe_cipher_list_hex" ]] && continue
fi
while true; do
curves_to_test=""
for (( i=0; i < nr_curves; i++ )); do
if ! "${curves_deprecated[i]}" || [[ "$proto" == 03 ]]; then
! "${supported_curve[i]}" && curves_to_test+=", ${curves_hex[i]}"
fi
done
[[ -z "$curves_to_test" ]] && break
len1=$(printf "%02x" "$((2*${#curves_to_test}/7))")
len2=$(printf "%02x" "$((2*${#curves_to_test}/7+2))")
tls_sockets "$proto" "${ecdhe_cipher_list_hex:2}, 00,ff" "ephemeralkey" "00, 0a, 00, $len2, 00, $len1, ${curves_to_test:2}"
sclient_success=$?
[[ $sclient_success -ne 0 ]] && [[ $sclient_success -ne 2 ]] && break
temp=$(awk -F': ' '/^Server Temp Key/ { print $2 }' "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
curve_found="${temp%%,*}"
if [[ "$curve_found" == "ECDH" ]]; then
curve_found="${temp#*, }"
curve_found="${curve_found%%,*}"
fi
for (( i=0; i < nr_curves; i++ )); do
! "${supported_curve[i]}" && [[ "${curves_ossl_output[i]}" == "$curve_found" ]] && break
done
[[ $i -eq $nr_curves ]] && break
supported_curve[i]=true
done
done
fi
if "$ecdhe_offered"; then
low=1000
for (( i=0; i < nr_curves; i++ )); do
if "${supported_curve[i]}"; then
curves_offered+="${curves_ossl[i]} "
[[ ${curves_bits[i]} -lt $low ]] && low=${curves_bits[i]}
fi
done
if [[ -n "$curves_offered" ]]; then
"$WIDE" && outln
pr_bold " Elliptic curves offered: "
out_row_aligned_max_width_by_entry "$curves_offered" " " $TERM_WIDTH pr_ecdh_curve_quality
outln
# severity ratings based on quality specified by
# pr_ecdh_quality() for shortest curve offered.
if [[ "$low" -le 163 ]]; then
fileout "${jsonID}_ECDHE_curves" "MEDIUM" "$curves_offered"
elif [[ "$low" -le 193 ]]; then
fileout "${jsonID}_ECDHE_curves" "LOW" "$curves_offered"
elif [[ "$low" -le 224 ]]; then
fileout "${jsonID}_ECDHE_curves" "INFO" "$curves_offered"
else
fileout "${jsonID}_ECDHE_curves" "OK" "$curves_offered"
fi
fi
fi
CURVES_OFFERED="$curves_offered"
CURVES_OFFERED=$(strip_trailing_space "$CURVES_OFFERED")
# Keep it "on file" for debugging purposes
debugme1 safe_echo "$CURVES_OFFERED" 2>&1 >"$TEMPDIR/$NODE.$NODEIP.curves_offered.txt"
# find out what groups are supported.
if "$using_sockets" && ( "$fs_tls13_offered" || "$ffdhe_offered" ); then
nr_curves=0
for curve in "${ffdhe_groups_output[@]}"; do
supported_curve[nr_curves]=false
[[ "$DH_GROUP_OFFERED" =~ $curve ]] && supported_curve[nr_curves]=true
nr_curves+=1
done
protos_to_try=""
"$fs_tls13_offered" && protos_to_try="04"
if "$ffdhe_offered"; then
if "$fs_tls13_offered"; then
protos_to_try="04 03"
else
protos_to_try="03"
fi
fi
curve_found=""
for proto in $protos_to_try; do
while true; do
curves_to_test=""
for (( i=0; i < nr_curves; i++ )); do
! "${supported_curve[i]}" && curves_to_test+=", ${ffdhe_groups_hex[i]}"
done
[[ -z "$curves_to_test" ]] && break
len1=$(printf "%02x" "$((2*${#curves_to_test}/7))")
len2=$(printf "%02x" "$((2*${#curves_to_test}/7+2))")
tls_sockets "$proto" "${ffdhe_cipher_list_hex:2}, 00,ff" "ephemeralkey" "00, 0a, 00, $len2, 00, $len1, ${curves_to_test:2}"
sclient_success=$?
[[ $sclient_success -ne 0 ]] && [[ $sclient_success -ne 2 ]] && break
temp=$(awk -F': ' '/^Server Temp Key/ { print $2 }' "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
curve_found="${temp#*, }"
curve_found="${curve_found%%,*}"
if [[ "$proto" == "03" ]] && [[ -z "$DH_GROUP_OFFERED" ]] && [[ "$curve_found" =~ ffdhe ]]; then
DH_GROUP_OFFERED="RFC7919/$curve_found"
DH_GROUP_LEN_P="${curve_found#ffdhe}"
fi
[[ ! "$curve_found" =~ ffdhe ]] && break
for (( i=0; i < nr_curves; i++ )); do
! "${supported_curve[i]}" && [[ "${ffdhe_groups_output[i]}" == "$curve_found" ]] && break
done
[[ $i -eq $nr_curves ]] && break
supported_curve[i]=true
done
done
curves_offered=""
for (( i=0; i < nr_curves; i++ )); do
"${supported_curve[i]}" && curves_offered+="${ffdhe_groups_output[i]} "
done
curves_offered="$(strip_trailing_space "$curves_offered")"
if "$ffdhe_offered" && [[ -z "$curves_offered" ]] && [[ -z "$curve_found" ]]; then
# Some servers will fail if the supported_groups extension is present.
tls_sockets "03" "${ffdhe_cipher_list_hex:2}, 00,ff" "ephemeralkey"
sclient_success=$?
if [[ $sclient_success -eq 0 ]] || [[ $sclient_success -eq 2 ]]; then
temp=$(awk -F': ' '/^Server Temp Key/ { print $2 }' "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
curve_found="${temp#*, }"
curve_found="${curve_found%%,*}"
fi
fi
if [[ -z "$curves_offered" ]] && [[ -n "$curve_found" ]]; then
# The server is not using one of the groups from RFC 7919.
if [[ -z "$DH_GROUP_OFFERED" ]]; then
# this global will get the name of the group either here or in run_logjam()
key_bitstring="$(awk '/-----BEGIN PUBLIC KEY/,/-----END PUBLIC KEY/ { print $0 }' $TEMPDIR/$NODEIP.parse_tls_serverhello.txt)"
get_common_prime "$jsonID" "$key_bitstring" ""
case $? in
0) curves_offered="$DH_GROUP_OFFERED"
len_dh_p=$DH_GROUP_LEN_P ;;
2) pr_bold " DH or FF group offered : "
prln_local_problem "Your $OPENSSL does not support the pkey utility."
fileout "$jsonID" "WARN" "$OPENSSL does not support the pkey utility."
esac
else
curves_offered="$DH_GROUP_OFFERED"
len_dh_p=$DH_GROUP_LEN_P
fi
fi
if [[ -n "$curves_offered" ]]; then
if [[ ! "$curves_offered" =~ ffdhe ]] || [[ ! "$curves_offered" =~ \ ]]; then
pr_bold " DH group offered: "
else
pr_bold " Finite field group: "
fi
if [[ "$curves_offered" =~ ffdhe ]]; then
# ok not to display them in italics:
pr_svrty_good "$curves_offered"
quality=6
else
pr_dh "$curves_offered" "$len_dh_p"
quality=$?
fi
case "$quality" in
1) quality_str="CRITICAL" ;;
2) quality_str="HIGH" ;;
3) quality_str="MEDIUM" ;;
4) quality_str="LOW" ;;
5) quality_str="INFO" ;;
6|7) quality_str="OK" ;;
esac
if [[ "$curves_offered" =~ Unknown ]]; then
fileout "DH_groups" "$quality_str" "$curves_offered ($len_dh_p bits)"
else
fileout "DH_groups" "$quality_str" "$curves_offered"
fi
fi
fi
outln
tmpfile_handle ${FUNCNAME[0]}.txt
"$using_sockets" && HAS_DH_BITS="$has_dh_bits"
return 0
}
# good source for configuration and bugs: https://wiki.mozilla.org/Security/Server_Side_TLS
# good start to read: https://en.wikipedia.org/wiki/Transport_Layer_Security#Attacks_against_TLS.2FSSL
npn_pre(){
if [[ -n "$PROXY" ]]; then
pr_warning "not tested as proxies do not support proxying it"
fileout "NPN" "WARN" "not tested as proxies do not support proxying it"
return 1
fi
if ! "$HAS_NPN"; then
pr_local_problem "$OPENSSL doesn't support NPN/SPDY";
fileout "NPN" "WARN" "not tested $OPENSSL doesn't support NPN/SPDY"
return 7
fi
return 0
}
alpn_pre(){
if [[ -n "$PROXY" ]]; then
pr_warning "not tested as proxies do not support proxying it"
fileout "ALPN" "WARN" "not tested as proxies do not support proxying it"
return 1
fi
if ! "$HAS_ALPN" && "$SSL_NATIVE"; then
prln_local_problem "$OPENSSL doesn't support ALPN/HTTP2";
fileout "ALPN" "WARN" "not tested as $OPENSSL does not support it"
return 7
fi
return 0
}
# modern browsers do not support it anymore but we should still test it at least for fingerprinting the server side
# Thus we don't label any support for NPN as good.
# FAST mode skips this test
run_npn() {
local tmpstr
local -i ret=0
local jsonID="NPN"
[[ -n "$STARTTLS" ]] && return 0
"$FAST" && return 0
pr_bold " NPN/SPDY "
if ! npn_pre; then
outln
return 0
fi
$OPENSSL s_client $(s_client_options "-connect $NODEIP:$PORT $BUGS $SNI -nextprotoneg "$NPN_PROTOs"") </dev/null 2>$ERRFILE >$TMPFILE
[[ $? -ne 0 ]] && ret=1
tmpstr="$(grep -a '^Protocols' $TMPFILE | sed 's/Protocols.*: //')"
if [[ -z "$tmpstr" ]] || [[ "$tmpstr" == " " ]]; then
outln "not offered"
fileout "$jsonID" "INFO" "not offered"
else
# now comes a strange thing: "Protocols advertised by server:" is empty but connection succeeded
if [[ "$tmpstr" =~ [h2|spdy|http] ]]; then
out "$tmpstr"
outln " (advertised)"
fileout "$jsonID" "INFO" "offered with $tmpstr (advertised)"
else
prln_cyan "please check manually, server response was ambiguous ..."
fileout "$jsonID" "INFO" "please check manually, server response was ambiguous ..."
((ret++))
fi
fi
# btw: nmap can do that too https://nmap.org/nsedoc/scripts/tls-nextprotoneg.html
# nmap --script=tls-nextprotoneg #NODE -p $PORT is your friend if your openssl doesn't want to test this
tmpfile_handle ${FUNCNAME[0]}.txt
return $ret
}
run_alpn() {
local tmpstr alpn_extn len
local -i ret=0
local has_alpn_proto=false
local alpn_finding=""
local jsonID="ALPN"
[[ -n "$STARTTLS" ]] && return 0
pr_bold " ALPN/HTTP2 "
if ! alpn_pre; then
outln
return 0
fi
for proto in $ALPN_PROTOs; do
# for some reason OpenSSL doesn't list the advertised protocols, so instead try common protocols
if "$HAS_ALPN"; then
$OPENSSL s_client $(s_client_options "-connect $NODEIP:$PORT $BUGS $SNI -alpn $proto") </dev/null 2>$ERRFILE >$TMPFILE
else
alpn_extn="$(printf "%02x" ${#proto}),$(string_to_asciihex "$proto")"
len="$(printf "%04x" $((${#proto}+1)))"
alpn_extn="${len:0:2},${len:2:2},$alpn_extn"
len="$(printf "%04x" $((${#proto}+3)))"
alpn_extn="00,10,${len:0:2},${len:2:2},$alpn_extn"
tls_sockets "03" "$TLS12_CIPHER" "all+" "$alpn_extn"
if [[ -r "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" ]]; then
cp "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" $TMPFILE
else
echo "" > $TMPFILE
fi
fi
tmpstr="$(awk -F':' '/^ALPN protocol*:/ { print $2 }' $TMPFILE)"
if [[ "$tmpstr" == *"$proto" ]]; then
if ! $has_alpn_proto; then
has_alpn_proto=true
else
out ", "
fi
# only h2 is what browser need to use HTTP/2.0 and brings a security,privacy and performance benefit
if [[ "$proto" == "h2" ]]; then
pr_svrty_good "$proto"
fileout "${jsonID}_HTTP2" "OK" "$proto"
else
out "$proto"
alpn_finding+="$proto"
fi
fi
done
if $has_alpn_proto; then
outln " (offered)"
# if h2 is not the only protocol:
[[ -n "$alpn_finding" ]] && fileout "$jsonID" "INFO" "$alpn_finding"
else
outln "not offered"
fileout "$jsonID" "INFO" "not offered"
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return $ret
}
# arg1: send string
# arg2: success string: an egrep pattern
# arg3: number of loops we should read from the buffer (optional, otherwise STARTTLS_SLEEP)
starttls_io() {
local nr_waits=$STARTTLS_SLEEP
local buffer=""
local -i i
[[ -n "$3" ]] && waitsleep=$3
[[ -z "$2" ]] && echo "FIXME $((LINENO))"
# If there's a sending part it's IO. Postgres sends via socket and replies via
# strings "S". So there's no I part of IO ;-)
if [[ -n "$1" ]]; then
debugme echo -en "C: $1"
echo -en "$1" >&5
fi
if [[ "$2" == JUSTSEND ]]; then
debugme echo -e "\n (only sent)\n"
dd of=/dev/null bs=512 count=1 <&5 2>/dev/null &
return 0
fi
# This seems a bit dangerous but works. No blockings yet. "if=nonblock" doesn't work on BSDs
buffer="$(dd bs=512 count=1 <&5 2>/dev/null)"
for ((i=1; i < $nr_waits; i++ )); do
[[ "$DEBUG" -ge 2 ]] && echo -en "\nS: " && echo $buffer
if [[ "$buffer" =~ $2 ]]; then
debugme echo " ---> reply matched \"$2\""
# the fd sometimes still seem to contain chars which confuses the following TLS handshake, trying to empty:
# dd of=/dev/null bs=512 count=1 <&5 2>/dev/null
return 0
else
# no match yet, more reading from fd helps.
buffer+=$(dd bs=512 count=1 <&5 2>/dev/null)
fi
done
return 1
}
# Line-based send with newline characters appended (arg2 empty)
# arg2: debug_string -- what we had in the caller previously
starttls_just_send(){
local -i ret=0
debugme echo "C: $1\r\n"
# We need cat here, otherwise the appended ELHO after STARTTLS will be in the next packet
printf "%b" "$1\r\n" | cat >&5
ret=$?
if [[ $ret -eq 0 ]]; then
debugme echo " > succeeded: $2"
else
debugme echo " > failed: $2 ($ret)"
fi
return $ret
}
# arg1: (optional): wait time
starttls_just_read(){
local waitsleep=$STARTTLS_SLEEP
[[ -n "$1" ]] && waitsleep=$1
if [[ "$DEBUG" -ge 2 ]]; then
echo "=== just read banner ==="
cat <&5 &
else
dd of=/dev/null count=8 <&5 2>/dev/null &
fi
wait_kill $! $waitsleep
return 0
}
starttls_full_read(){
local cont_pattern="$1"
local end_pattern="$2"
local starttls_regex="$3" # optional: pattern we search for in the server's response
local debug_str="$4" # optional
local starttls_read_data=()
local one_line=""
local ret=0
local ret_found=0
local debugpad=" > found: "
local oldIFS="$IFS"
debugme echo "=== reading banner ... ==="
if [[ -n "$starttls_regex" ]]; then
debugme echo "=== we'll have to search for \"$starttls_regex\" pattern ==="
# pre-set an error if we won't find the ~regex
ret_found=3
fi
IFS=''
# Now read handshake line by line and act on the args supplied.
# Exit the subshell if timeout has been hit (-t $STARTTLS_SLEEP)
while read -r -t $STARTTLS_SLEEP one_line; ret=$?; (exit $ret); do
debugme tmln_out "S: ${one_line}"
if [[ $DEBUG -ge 5 ]]; then
echo "end_pattern/cont_pattern: ${end_pattern} / ${cont_pattern}"
fi
if [[ -n "$starttls_regex" ]]; then
if [[ ${one_line} =~ $starttls_regex ]]; then
debugme tmln_out "${debugpad} ${one_line} "
# We don't exit here as the buffer is not empty. So we continue reading but save the status:
ret_found=0
fi
fi
starttls_read_data+=("${one_line}")
if [[ ${one_line} =~ ${end_pattern} ]]; then
debugme tmln_out "${debugpad} ${one_line} "
IFS="${oldIFS}"
break
fi
if [[ ! ${one_line} =~ ${cont_pattern} ]]; then
debugme echo "=== full read syntax error, expected regex pattern ${cont_pattern} (cont) or ${end_pattern} (end) ==="
IFS="${oldIFS}"
ret_found=2
break
fi
done <&5
if [[ $ret_found -eq 0 ]]; then
# Print the debug statement we previously had in the caller function
[[ -n "$debug_str" ]] && debugme echo " >> $debug_str"
else
if [[ $ret -ge 128 ]]; then
debugme echo "=== timeout reading ==="
ret_found=$ret
fi
fi
IFS="${oldIFS}"
return $ret_found
}
starttls_ftp_dialog() {
local -i ret=0
local reSTARTTLS='^ AUTH TLS'
debugme echo "=== starting ftp STARTTLS dialog ==="
starttls_full_read '^220-' '^220 ' '' "received server greeting" &&
starttls_just_send 'FEAT' "sent FEAT" &&
starttls_full_read '^(211-| )' '^211 ' "${reSTARTTLS}" "received server features and checked STARTTLS availability" &&
starttls_just_send 'AUTH TLS' "initiated STARTTLS" &&
starttls_full_read '^234-' '^234 ' '' "received ack for STARTTLS"
ret=$?
debugme echo "=== finished ftp STARTTLS dialog with ${ret} ==="
return $ret
}
# argv1: empty: SMTP, "lmtp" : LMTP
# argv2: payload for STARTTLS injection test
#
starttls_smtp_dialog() {
local greet_str="EHLO testssl.sh"
local proto="smtp"
local reSTARTTLS='^250[ -]STARTTLS'
local starttls="STARTTLS"
local -i ret=0
"$SNEAKY" && greet_str="EHLO google.com"
[[ -n "$2" ]] && starttls="$starttls\r\n$2" # this adds a payload if supplied
if [[ "$1" == lmtp ]]; then
proto="lmtp"
greet_str="LHLO"
fi
debugme echo "=== starting $proto STARTTLS dialog ==="
starttls_full_read '^220-' '^220 ' '' "received server greeting" &&
starttls_just_send "$greet_str" "sent $greet_str" &&
starttls_full_read '^250-' '^250 ' "${reSTARTTLS}" "received server capabilities and checked STARTTLS availability" &&
starttls_just_send "$starttls" "initiated STARTTLS" &&
starttls_full_read '^220-' '^220 ' '' "received ack for STARTTLS"
ret=$?
debugme echo "=== finished $proto STARTTLS dialog with ${ret} ==="
return $ret
}
# argv1: payload for STARTTLS injection test
#
starttls_pop3_dialog() {
local -i ret=0
local starttls="STLS"
[[ -n "$1" ]] && starttls="$starttls\r\n$1" # this adds a payload if supplied
debugme echo "=== starting pop3 STARTTLS dialog ==="
starttls_full_read '^\+OK' '^\+OK' '' "received server greeting" &&
starttls_just_send "$starttls" "initiated STARTTLS" &&
starttls_full_read '^\+OK' '^\+OK' '' "received ack for STARTTLS"
ret=$?
debugme echo "=== finished pop3 STARTTLS dialog with ${ret} ==="
return $ret
}
# argv1: payload for STARTTLS injection test
#
starttls_imap_dialog() {
local -i ret=0
local reSTARTTLS='^\* CAPABILITY(( .*)? IMAP4rev1( .*)? STARTTLS(.*)?|( .*)? STARTTLS( .*)? IMAP4rev1(.*)?)$'
local starttls="a002 STARTTLS"
[[ -n "$1" ]] && starttls="$starttls\r\n$1" # this adds a payload if supplied
debugme echo "=== starting imap STARTTLS dialog ==="
starttls_full_read '^\* ' '^\* OK ' '' "received server greeting" &&
starttls_just_send 'a001 CAPABILITY' "sent CAPABILITY" &&
starttls_full_read '^\* ' '^a001 OK ' "${reSTARTTLS}" "received server capabilities and checked STARTTLS availability" &&
starttls_just_send "$starttls" "initiated STARTTLS" &&
starttls_full_read '^\* ' '^a002 OK ' '' "received ack for STARTTLS"
ret=$?
debugme echo "=== finished imap STARTTLS dialog with ${ret} ==="
return $ret
}
starttls_xmpp_dialog() {
local -i ret=0
debugme echo "=== starting xmpp STARTTLS dialog ==="
[[ -z $XMPP_HOST ]] && XMPP_HOST="$NODE"
namespace="jabber:client"
[[ "$STARTTLS_PROTOCOL" == xmpp-server ]] && namespace="jabber:server"
starttls_io "<stream:stream xmlns:stream='http://etherx.jabber.org/streams' xmlns='"$namespace"' to='"$XMPP_HOST"' version='1.0'>" 'starttls(.*)features' 1 &&
starttls_io "<starttls xmlns='urn:ietf:params:xml:ns:xmpp-tls'/>" '<proceed' 1
# starttls_io "<stream:stream xmlns:stream='http://etherx.jabber.org/streams' xmlns='"$namespace"' to='"$XMPP_HOST"' version='1.0'>" 'JUSTSEND' 2
ret=$?
debugme echo "=== finished xmpp STARTTLS dialog with ${ret} ==="
return $ret
}
starttls_nntp_dialog() {
local -i ret=0
debugme echo "=== starting nntp STARTTLS dialog ==="
starttls_full_read '$^' '^20[01] ' '' "received server greeting" &&
starttls_just_send 'STARTTLS' "initiated STARTTLS" &&
starttls_full_read '$^' '^382 ' '' "received ack for STARTTLS"
ret=$?
debugme echo "=== finished nntp STARTTLS dialog with ${ret} ==="
return $ret
}
starttls_postgres_dialog() {
local -i ret=0
local debugpad=" > "
local starttls_init=", x00, x00 ,x00 ,x08 ,x04 ,xD2 ,x16 ,x2F"
debugme echo "=== starting postgres STARTTLS dialog ==="
socksend "${starttls_init}" 0 && debugme echo "${debugpad}initiated STARTTLS" &&
starttls_io "" S 1 && debugme echo "${debugpad}received ack (="S") for STARTTLS"
ret=$?
debugme echo "=== finished postgres STARTTLS dialog with ${ret} ==="
return $ret
}
starttls_mysql_dialog() {
local debugpad=" > "
local -i ret=0
local starttls_init="
, x20, x00, x00, x01, # payload_length, sequence_id
x85, xae, xff, x00, # capability flags, CLIENT_SSL always set
x00, x00, x00, x01, # max-packet size
x21, # character set
x00, x00, x00, x00, x00, x00, x00, x00, # string[23] reserved (all [0])
x00, x00, x00, x00, x00, x00, x00, x00,
x00, x00, x00, x00, x00, x00, x00"
debugme echo "=== starting mysql STARTTLS dialog ==="
socksend "${starttls_init}" 0 && debugme echo "${debugpad}initiated STARTTLS" &&
starttls_just_read 1 "read succeeded"
# 1 is the timeout value which only MySQL needs. Note, there seems no response whether STARTTLS
# succeeded. We could try harder, see https://github.com/openssl/openssl/blob/master/apps/s_client.c
# but atm this seems sufficient as later we will fail if there's no STARTTLS.
# BUT: there seeem to be cases when the handshake fails (8S01Bad handshake --> 30 38 53 30 31 42 61 64 20 68 61 6e 64 73 68 61 6b 65).
# also there's a banner in the reply "<version><somebytes>mysql_native_password"
# TODO: We could detect if the server supports STARTTLS via the "Server Capabilities"
# bit field, but we'd need to parse the binary stream, with greater precision than regex.
ret=$?
debugme echo "=== finished mysql STARTTLS dialog with ${ret} ==="
return $ret
}
# arg1: fd for socket -- which we don't use yes as it is a hassle (not clear whether it works under every bash version)
# arg2: optional: for STARTTLS additional command to be injected
# returns 6 if opening the socket caused a problem, 1 if STARTTLS handshake failed, 0: all ok
#
fd_socket() {
local fd="$1"
local payload="$2"
local proyxline=""
local nodeip="$(tr -d '[]' <<< $NODEIP)" # sockets do not need the square brackets we have of IPv6 addresses
# we just need do it here, that's all!
if [[ -t 5 ]]; then
pr_warning "$PROG_NAME: unable to open a socket because of a tty conflict"
return 6
fi
if [[ -n "$PROXY" ]]; then
# PROXYNODE works better than PROXYIP on modern versions of squid
if ! exec 5<> /dev/tcp/${PROXYNODE}/${PROXYPORT}; then
outln
pr_warning "$PROG_NAME: unable to open a socket to proxy $PROXYNODE:$PROXYPORT"
return 6
fi
if "$DNS_VIA_PROXY"; then
printf -- "%b" "CONNECT $NODE:$PORT HTTP/1.0\n\n" >&5
else
printf -- "%b" "CONNECT $nodeip:$PORT HTTP/1.0\n\n" >&5
fi
while true; do
read -t $PROXY_WAIT -r proyxline <&5
if [[ $? -ge 128 ]]; then
pr_warning "Proxy timed out. Unable to CONNECT via proxy. "
close_socket 5
return 6
elif [[ "${proyxline%/*}" == HTTP ]]; then
proyxline=${proyxline#* }
if [[ "${proyxline%% *}" != 200 ]]; then
pr_warning "Unable to CONNECT via proxy. "
[[ "$PORT" != 443 ]] && prln_warning "Check whether your proxy supports port $PORT and the underlying protocol."
close_socket 5
return 6
fi
fi
if [[ "$proyxline" == $'\r' ]] || [[ -z "$proyxline" ]] ; then
break
fi
done
# For the following execs: 2>/dev/null would remove a potential error message, but disables debugging.
# First we check whether a socket connect timeout was specified
elif [[ -n "$CONNECT_TIMEOUT" ]]; then
if ! $TIMEOUT_CMD $CONNECT_TIMEOUT bash -c "exec 5<>/dev/tcp/$nodeip/$PORT"; then
((NR_SOCKET_FAIL++))
connectivity_problem $NR_SOCKET_FAIL $MAX_SOCKET_FAIL "TCP connect problem" "repeated TCP connect problems (connect timeout), giving up"
outln
pr_warning "Unable to open a socket to $NODEIP:$PORT. "
return 6
fi
# Now comes the the usual case
elif ! exec 5<>/dev/tcp/$nodeip/$PORT; then
((NR_SOCKET_FAIL++))
connectivity_problem $NR_SOCKET_FAIL $MAX_SOCKET_FAIL "TCP connect problem" "repeated TCP connect problems, giving up"
outln
pr_warning "Unable to open a socket to $NODEIP:$PORT. "
return 6
fi
if [[ -n "$STARTTLS" ]]; then
case "$STARTTLS_PROTOCOL" in # port
ftp|ftps) # https://tools.ietf.org/html/rfc4217, https://tools.ietf.org/html/rfc959
starttls_ftp_dialog
;;
smtp|smtps) # SMTP, see https://tools.ietf.org/html/rfc{2033,3207,5321}
starttls_smtp_dialog "" "$payload"
;;
lmtp|lmtps) # LMTP, see https://tools.ietf.org/html/rfc{2033,3207,5321}
starttls_smtp_dialog lmtp
;;
pop3|pop3s) # POP, see https://tools.ietf.org/html/rfc2595
starttls_pop3_dialog "$payload"
;;
nntp|nntps) # NNTP, see https://tools.ietf.org/html/rfc4642
starttls_nntp_dialog
;;
imap|imaps) # IMAP, https://tools.ietf.org/html/rfc2595, https://tools.ietf.org/html/rfc3501
starttls_imap_dialog "$payload"
;;
irc|ircs) # IRC, https://ircv3.net/specs/extensions/tls-3.1.html, https://ircv3.net/specs/core/capability-negotiation.html
fatal "FIXME: IRC+STARTTLS not yet supported" $ERR_NOSUPPORT
;;
ldap|ldaps) # LDAP, https://tools.ietf.org/html/rfc2830, https://tools.ietf.org/html/rfc4511
fatal "FIXME: LDAP+STARTTLS over sockets not supported yet (try \"--ssl-native\")" $ERR_NOSUPPORT
;;
acap|acaps) # ACAP = Application Configuration Access Protocol, see https://tools.ietf.org/html/rfc2595
fatal "ACAP Easteregg: not implemented -- probably never will" $ERR_NOSUPPORT
;;
xmpp|xmpps|xmpp-server) # XMPP, see https://tools.ietf.org/html/rfc6120
starttls_xmpp_dialog
# IM observatory: https://xmpp.net , XMPP server directory: https://xmpp.net/directory.php
;;
postgres) # Postgres SQL, see https://www.postgresql.org/docs/devel/protocol-message-formats.html
starttls_postgres_dialog
;;
mysql) # MySQL, see https://dev.mysql.com/doc/internals/en/x-protocol-lifecycle-lifecycle.html#x-protocol-lifecycle-tls-extension
starttls_mysql_dialog
;;
*) # we need to throw an error here -- otherwise testssl.sh treats the STARTTLS protocol as plain SSL/TLS which leads to FP
fatal "FIXME: STARTTLS protocol $STARTTLS_PROTOCOL is not yet supported" $ERR_NOSUPPORT
esac
ret=$?
case $ret in
0) return 0 ;;
3) fatal "No STARTTLS found in handshake" $ERR_CONNECT ;;
*) if [[ $ret -eq 2 ]] && [[ -n "$payload" ]]; then
# We don't want this handling for STARTTLS injection
return 0
fi
((NR_STARTTLS_FAIL++))
# This are mostly timeouts here (code >=128). We give the client a chance to try again later. For cases
# where we have no STARTTLS in the server banner however - ret code=3 - we don't neet to try again
connectivity_problem $NR_STARTTLS_FAIL $MAX_STARTTLS_FAIL "STARTTLS handshake failed (code: $ret)" "repeated STARTTLS problems, giving up ($ret)"
return 6 ;;
esac
fi
# Plain socket ok, yes or no?
[[ $? -eq 0 ]] && return 0
return 1
}
# arg1: socket fd but atm we use 5 anyway, see comment for fd_socket()
#
close_socket(){
local fd="$1"
exec 5<&-
exec 5>&-
return 0
}
send_close_notify() {
local detected_tlsversion="$1"
debugme echo "sending close_notify..."
if [[ $detected_tlsversion == 0300 ]]; then
socksend ",x15, x03, x00, x00, x02, x02, x00" 0
else
socksend ",x15, x03, x01, x00, x02, x02, x00" 0
fi
}
# Format string properly for socket
# ARG1: any commented sequence of two bytes hex, separated by commas. It can contain comments, new lines, tabs and white spaces
# NW_STR holds the global with the string prepared for printf, like '\x16\x03\x03\'
code2network() {
NW_STR=$(sed -e 's/,/\\\x/g' <<< "$1" | sed -e 's/# .*$//g' -e 's/ //g' -e '/^$/d' | tr -d '\n' | tr -d '\t')
}
# sockets inspired by https://blog.chris007.de/using-bash-for-network-socket-operation/
# ARG1: hexbytes separated by commas, with a leading comma
# ARG2: seconds to sleep
socksend_clienthello() {
local data=""
code2network "$1"
data="$NW_STR"
[[ "$DEBUG" -ge 4 ]] && echo && echo "\"$data\""
if [[ -z "$PRINTF" ]] ;then
# We could also use "dd ibs=1M obs=1M" here but is seems to be at max 3% slower
printf -- "$data" | cat >&5 2>/dev/null &
else
$PRINTF -- "$data" 2>/dev/null >&5 2>/dev/null &
fi
sleep $USLEEP_SND
}
# ARG1: hexbytes -- preceeded by x -- separated by commas, with a leading comma
# ARG2: seconds to sleep
socksend() {
local data line
# read line per line and strip comments (bash internal func can't handle multiline statements
data="$(while read line; do
printf "${line%%\#*}"
done <<< "$1" )"
data="${data// /}" # strip ' '
data="${data//,/\\}" # s&r , by \
[[ $DEBUG -ge 4 ]] && echo && echo "\"$data\""
if [[ -z "$PRINTF" ]] ;then
printf -- "$data" | cat >&5 2>/dev/null &
else
$PRINTF -- "$data" 2>/dev/null >&5 2>/dev/null &
fi
sleep $2
}
# for SSLv2 to TLS 1.2:
# ARG1: blocksize for reading
sockread_serverhello() {
[[ -z "$2" ]] && maxsleep=$MAX_WAITSOCK || maxsleep=$2
SOCK_REPLY_FILE=$(mktemp $TEMPDIR/ddreply.XXXXXX) || return 7
dd bs=$1 of=$SOCK_REPLY_FILE count=1 <&5 2>/dev/null &
wait_kill $! $maxsleep
return $?
}
#trying a faster version
# ARG1: blocksize for reading
sockread_fast() {
dd bs=$1 count=1 <&5 2>/dev/null | hexdump -v -e '16/1 "%02X"'
}
len2twobytes() {
local len_arg1=${#1}
[[ $len_arg1 -le 2 ]] && LEN_STR=$(printf "00, %02s \n" "$1")
[[ $len_arg1 -eq 3 ]] && LEN_STR=$(printf "0%s, %02s \n" "${1:0:1}" "${1:1:2}")
[[ $len_arg1 -eq 4 ]] && LEN_STR=$(printf "%02s, %02s \n" "${1:0:2}" "${1:2:2}")
}
get_pub_key_size() {
local pubkey pubkeybits
local -i i len1 len
"$HAS_PKEY" || return 1
# OpenSSL displays the number of bits for RSA and ECC
pubkeybits=$($OPENSSL x509 -noout -pubkey -in $HOSTCERT 2>>$ERRFILE | $OPENSSL pkey -pubin -text_pub 2>>$ERRFILE)
if [[ "$pubkeybits" =~ E[Dd]25519 ]]; then
echo "Server public key is 253 bit" >> $TMPFILE
return 0
elif [[ "$pubkeybits" =~ E[Dd]448 ]]; then
echo "Server public key is 456 bit" >> $TMPFILE
return 0
fi
pubkeybits=$(awk -F'(' '/Public-Key/ { print $2 }' <<< "$pubkeybits")
if [[ -n $pubkeybits ]]; then
# remainder e.g. "256 bit)"
pubkeybits="${pubkeybits//\)/}"
echo "Server public key is $pubkeybits" >> $TMPFILE
else
# This extracts the public key for DSA, DH, and GOST
pubkey=$($OPENSSL x509 -noout -pubkey -in $HOSTCERT 2>>$ERRFILE | $OPENSSL pkey -pubin -outform DER 2>>$ERRFILE | hexdump -v -e '16/1 "%02X"')
[[ -z "$pubkey" ]] && return 1
# Skip over tag and length of subjectPublicKeyInfo
i=2
len1="0x${pubkey:i:2}"
if [[ $len1 -lt 0x80 ]]; then
i+=2
else
len1=$((len1-0x80))
i+=$((2*len1+2))
fi
# Skip over algorithm field
i+=2
len1="0x${pubkey:i:2}"
i+=2
if [[ $len1 -lt 0x80 ]]; then
i+=$((2*len1))
else
case $len1 in
129) len="0x${pubkey:i:2}" ;;
130) len="0x${pubkey:i:2}"
i+=2
len=256*$len+"0x${pubkey:i:2}"
;;
131) len="0x${pubkey:i:2}"
i+=2
len=256*$len+"0x${pubkey:i:2}"
i+=2
len=256*$len+"0x${pubkey:i:2}"
;;
132) len="0x${pubkey:i:2}"
i+=2
len=256*$len+"0x${pubkey:i:2}"
i+=2
len=256*$len+"0x${pubkey:i:2}"
i+=2
len=256*$len+"0x${pubkey:i:2}"
;;
esac
i+=$((2+2*len))
fi
# Next is the public key BIT STRING. Skip over tag, length, and number of unused bits.
i+=2
len1="0x${pubkey:i:2}"
if [[ $len1 -lt 0x80 ]]; then
i+=4
else
len1=$((len1-0x80))
i+=$((2*len1+4))
fi
# Now get the length of the public key
i+=2
len1="0x${pubkey:i:2}"
i+=2
if [[ $len1 -lt 0x80 ]]; then
len=$len1
else
case $len1 in
129) len="0x${pubkey:i:2}" ;;
130) len="0x${pubkey:i:2}"
i+=2
len=256*$len+"0x${pubkey:i:2}"
;;
131) len="0x${pubkey:i:2}"
i+=2
len=256*$len+"0x${pubkey:i:2}"
i+=2
len=256*$len+"0x${pubkey:i:2}"
;;
132) len="0x${pubkey:i:2}"
i+=2
len=256*$len+"0x${pubkey:i:2}"
i+=2
len=256*$len+"0x${pubkey:i:2}"
i+=2
len=256*$len+"0x${pubkey:i:2}"
;;
esac
fi
len=$((8*len)) # convert from bytes to bits
pubkeybits="$(printf "%d" $len)"
echo "Server public key is $pubkeybits bit" >> $TMPFILE
fi
return 0
}
# Extract the DH ephemeral key from the ServerKeyExchange message
get_dh_ephemeralkey() {
local tls_serverkeyexchange_ascii="$1"
local -i tls_serverkeyexchange_ascii_len offset
local dh_p dh_g dh_y dh_param len1 key_bitstring
local -i i dh_p_len dh_g_len dh_y_len dh_param_len
"$HAS_PKEY" || return 1
tls_serverkeyexchange_ascii_len=${#tls_serverkeyexchange_ascii}
dh_p_len=2*$(hex2dec "${tls_serverkeyexchange_ascii:0:4}")
offset=4+$dh_p_len
if [[ $tls_serverkeyexchange_ascii_len -lt $offset ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
return 1
fi
# Subtract any leading 0 bytes
for (( i=4; i < offset; i+=2 )); do
[[ "${tls_serverkeyexchange_ascii:i:2}" != "00" ]] && break
dh_p_len=$dh_p_len-2
done
if [[ $i -ge $offset ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
return 1
fi
dh_p="${tls_serverkeyexchange_ascii:i:dh_p_len}"
dh_g_len=2*$(hex2dec "${tls_serverkeyexchange_ascii:offset:4}")
i=4+$offset
offset+=4+$dh_g_len
if [[ $tls_serverkeyexchange_ascii_len -lt $offset ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
return 1
fi
# Subtract any leading 0 bytes
for (( 1; i < offset; i+=2 )); do
[[ "${tls_serverkeyexchange_ascii:i:2}" != "00" ]] && break
dh_g_len=$dh_g_len-2
done
if [[ $i -ge $offset ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
return 1
fi
dh_g="${tls_serverkeyexchange_ascii:i:dh_g_len}"
dh_y_len=2*$(hex2dec "${tls_serverkeyexchange_ascii:offset:4}")
i=4+$offset
offset+=4+$dh_y_len
if [[ $tls_serverkeyexchange_ascii_len -lt $offset ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
return 1
fi
# Subtract any leading 0 bytes
for (( 1; i < offset; i+=2 )); do
[[ "${tls_serverkeyexchange_ascii:i:2}" != "00" ]] && break
dh_y_len=$dh_y_len-2
done
if [[ $i -ge $offset ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
return 1
fi
dh_y="${tls_serverkeyexchange_ascii:i:dh_y_len}"
# The following code assumes that all lengths can be encoded using at most 2 bytes,
# which just means that the encoded length of the public key must be less than
# 65,536 bytes. If the length is anywhere close to that, it is almost certainly an
# encoding error.
if [[ $dh_p_len+$dh_g_len+$dh_y_len -ge 131000 ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
return 1
fi
# make ASN.1 INTEGER of p, g, and Y
[[ "0x${dh_p:0:1}" -ge 8 ]] && dh_p_len+=2 && dh_p="00$dh_p"
if [[ $dh_p_len -lt 256 ]]; then
len1="$(printf "%02x" $((dh_p_len/2)))"
elif [[ $dh_p_len -lt 512 ]]; then
len1="81$(printf "%02x" $((dh_p_len/2)))"
else
len1="82$(printf "%04x" $((dh_p_len/2)))"
fi
dh_p="02${len1}$dh_p"
[[ "0x${dh_g:0:1}" -ge 8 ]] && dh_g_len+=2 && dh_g="00$dh_g"
if [[ $dh_g_len -lt 256 ]]; then
len1="$(printf "%02x" $((dh_g_len/2)))"
elif [[ $dh_g_len -lt 512 ]]; then
len1="81$(printf "%02x" $((dh_g_len/2)))"
else
len1="82$(printf "%04x" $((dh_g_len/2)))"
fi
dh_g="02${len1}$dh_g"
[[ "0x${dh_y:0:1}" -ge 8 ]] && dh_y_len+=2 && dh_y="00$dh_y"
if [[ $dh_y_len -lt 256 ]]; then
len1="$(printf "%02x" $((dh_y_len/2)))"
elif [[ $dh_y_len -lt 512 ]]; then
len1="81$(printf "%02x" $((dh_y_len/2)))"
else
len1="82$(printf "%04x" $((dh_y_len/2)))"
fi
dh_y="02${len1}$dh_y"
# Make a SEQUENCE of p and g
dh_param_len=${#dh_p}+${#dh_g}
if [[ $dh_param_len -lt 256 ]]; then
len1="$(printf "%02x" $((dh_param_len/2)))"
elif [[ $dh_param_len -lt 512 ]]; then
len1="81$(printf "%02x" $((dh_param_len/2)))"
else
len1="82$(printf "%04x" $((dh_param_len/2)))"
fi
dh_param="30${len1}${dh_p}${dh_g}"
# Make a SEQUENCE of the parameters SEQUENCE and the OID
dh_param_len=22+${#dh_param}
if [[ $dh_param_len -lt 256 ]]; then
len1="$(printf "%02x" $((dh_param_len/2)))"
elif [[ $dh_param_len -lt 512 ]]; then
len1="81$(printf "%02x" $((dh_param_len/2)))"
else
len1="82$(printf "%04x" $((dh_param_len/2)))"
fi
dh_param="30${len1}06092A864886F70D010301${dh_param}"
# Encapsulate public key, y, in a BIT STRING
dh_y_len=${#dh_y}+2
if [[ $dh_y_len -lt 256 ]]; then
len1="$(printf "%02x" $((dh_y_len/2)))"
elif [[ $dh_y_len -lt 512 ]]; then
len1="81$(printf "%02x" $((dh_y_len/2)))"
else
len1="82$(printf "%04x" $((dh_y_len/2)))"
fi
dh_y="03${len1}00$dh_y"
# Create the public key SEQUENCE
i=${#dh_param}+${#dh_y}
if [[ $i -lt 256 ]]; then
len1="$(printf "%02x" $((i/2)))"
elif [[ $i -lt 512 ]]; then
len1="81$(printf "%02x" $((i/2)))"
else
len1="82$(printf "%04x" $((i/2)))"
fi
key_bitstring="30${len1}${dh_param}${dh_y}"
key_bitstring="$(hex2binary "$key_bitstring" | $OPENSSL pkey -pubin -inform DER 2> $ERRFILE)"
[[ -z "$key_bitstring" ]] && return 1
tm_out "$key_bitstring"
return 0
}
# arg1: name of file with socket reply
# arg2: true if entire server hello should be parsed
# return values: 0=no SSLv2 (reset)
# 1=no SSLv2 (plaintext reply like it happens with OLS webservers)
# 3=SSLv2 supported (in $TEMPDIR/$NODEIP.sslv2_sockets.dd is reply for further processing
# --> there could be checked whether ciphers e.g have been returned at all (or anything else)
# 4=looks like an STARTTLS 5xx message
# 6=socket couldn't be opened
# 7=strange reply we can't deal with
parse_sslv2_serverhello() {
local ret v2_hello_ascii v2_hello_initbyte v2_hello_length
local v2_hello_handshake v2_cert_type v2_hello_cert_length
local v2_hello_cipherspec_length
local -i certificate_len nr_ciphers_detected offset i
local ret=3
local parse_complete="false"
# SSLv2 server hello: in hex representation, see below
# byte 1+2: length of server hello 0123
# 3: 04=Handshake message, server hello 45
# 4: session id hit or not (boolean: 00=false, this 67
# is the normal case)
# 5: certificate type, 01 = x509 89
# 6+7 version (00 02 = SSLv2) 10-13
# 8+9 certificate length 14-17
# 10+11 cipher spec length 17-20
# 12+13 connection id length
# [certificate length] ==> certificate
# [cipher spec length] ==> ciphers GOOD: HERE ARE ALL CIPHERS ALREADY!
# Note: recent SSL/TLS stacks reply with a TLS alert on a SSLv2 client hello.
# The TLS error message is different and could be used for fingerprinting.
if [[ "$2" == "true" ]]; then
parse_complete=true
fi
"$parse_complete" && echo "======================================" > $TMPFILE
v2_hello_ascii=$(hexdump -v -e '16/1 "%02X"' $1)
v2_hello_ascii="${v2_hello_ascii%%[!0-9A-F]*}"
[[ "$DEBUG" -ge 5 ]] && echo "$v2_hello_ascii"
if [[ -z "$v2_hello_ascii" ]]; then
ret=0 # 1 line without any blanks: no server hello received
debugme echo "server hello empty"
else
# now scrape two bytes out of the reply per byte
v2_hello_initbyte="${v2_hello_ascii:0:1}" # normally this belongs to the next, should be 8!
v2_hello_length="${v2_hello_ascii:1:3}" # + 0x8000 see above
v2_hello_handshake="${v2_hello_ascii:4:2}"
v2_cert_type="${v2_hello_ascii:8:2}"
v2_hello_cert_length="${v2_hello_ascii:14:4}"
v2_hello_cipherspec_length="${v2_hello_ascii:18:4}"
V2_HELLO_CIPHERSPEC_LENGTH=$(printf "%d\n" "0x$v2_hello_cipherspec_length" 2>/dev/null)
[[ $? -ne 0 ]] && ret=7
if [[ "${v2_hello_ascii:0:2}" == "35" ]] && "$do_starttls"; then
# this could be a 500/5xx for some weird reason where the STARTTLS handshake failed
debugme echo "$(hex2ascii "$v2_hello_ascii")"
ret=4
elif [[ "${v2_hello_ascii:0:4}" == "1503" ]]; then
# Cloudflare does this, OpenSSL 1.1.1 and picoTLS. With different alert messages
# Just in case somebody's interested in the exact error, we deliver it ;-)
debugme echo -n ">TLS< alert message discovered: ${v2_hello_ascii} "
case "${v2_hello_ascii:10:2}" in
01) debugme echo "(01/warning: 0x"${v2_hello_ascii:12:2}"/$(tls_alert "${v2_hello_ascii:12:2}"))" ;;
02) debugme echo "(02/fatal: 0x"${v2_hello_ascii:12:2}"/$(tls_alert "${v2_hello_ascii:12:2}"))" ;;
*) debugme echo "("${v2_hello_ascii:10:2}" : "${v2_hello_ascii:12:2}"))" ;;
esac
ret=0
elif [[ $v2_hello_initbyte != "8" ]] || [[ $v2_hello_handshake != "04" ]]; then
ret=1
if [[ $DEBUG -ge 2 ]]; then
echo "no correct server hello"
echo "SSLv2 server init byte: 0x0$v2_hello_initbyte"
echo "SSLv2 hello handshake : 0x$v2_hello_handshake"
fi
fi
if [[ $DEBUG -ge 3 ]]; then
echo "SSLv2 server hello length: 0x0$v2_hello_length"
echo "SSLv2 certificate type: 0x$v2_cert_type"
echo "SSLv2 certificate length: 0x$v2_hello_cert_length"
echo "SSLv2 cipher spec length: 0x$v2_hello_cipherspec_length"
fi
if "$parse_complete" && [[ 2*$(hex2dec "$v2_hello_length") -ne ${#v2_hello_ascii}-4 ]]; then
ret=7
fi
fi
"$parse_complete" || return $ret
# not sure why we need this
rm -f $HOSTCERT
> $TEMPDIR/intermediatecerts.pem
if [[ $ret -eq 3 ]]; then
certificate_len=2*$(hex2dec "$v2_hello_cert_length")
if [[ "$v2_cert_type" == "01" ]] && [[ "$v2_hello_cert_length" != "00" ]]; then
hex2binary "${v2_hello_ascii:26:certificate_len}" | \
$OPENSSL x509 -inform DER -outform PEM -out $HOSTCERT 2>$ERRFILE
if [[ $? -ne 0 ]]; then
debugme echo "Malformed certificate in ServerHello."
return 1
fi
get_pub_key_size
echo "======================================" >> $TMPFILE
fi
# Output list of supported ciphers
offset=$((certificate_len+26))
nr_ciphers_detected=$((V2_HELLO_CIPHERSPEC_LENGTH / 3))
for (( i=0 ; i<nr_ciphers_detected; i++ )); do
echo "Supported cipher: x$(tolower "${v2_hello_ascii:offset:6}")" >> $TMPFILE
offset=$((offset+6))
done
echo "======================================" >> $TMPFILE
tmpfile_handle ${FUNCNAME[0]}.txt
fi
return $ret
}
# arg1: hash function
# arg2: key
# arg3: text
hmac() {
local hash_fn="$1"
local key="$2" text="$3" output
local -i ret
if [[ ! "$OSSL_NAME" =~ LibreSSL ]] && [[ $OSSL_VER_MAJOR.$OSSL_VER_MINOR == 3.0.0* ]]; then
output="$(hex2binary "$text" | $OPENSSL mac -macopt digest:"${hash_fn/-/}" -macopt hexkey:"$key" HMAC 2>/dev/null)"
ret=$?
tm_out "$(strip_lf "$output")"
else
output="$(hex2binary "$text" | $OPENSSL dgst "$hash_fn" -mac HMAC -macopt hexkey:"$key" 2>/dev/null)"
ret=$?
tm_out "${output#*= }"
fi
return $ret
}
# arg1: hash function
# arg2: key
# arg3: transcript
# Compute the HMAC of the hash of the transcript
hmac-transcript() {
local hash_fn="$1"
local key="$2" transcript="$3" output
local -i ret
if [[ ! "$OSSL_NAME" =~ LibreSSL ]] && [[ $OSSL_VER_MAJOR.$OSSL_VER_MINOR == 3.0.0* ]]; then
output="$(hex2binary "$transcript" | \
$OPENSSL dgst "$hash_fn" -binary 2>/dev/null | \
$OPENSSL mac -macopt digest:"${hash_fn/-/}" -macopt hexkey:"$key" HMAC 2>/dev/null)"
ret=$?
tm_out "$(toupper "$(strip_lf "$output")")"
else
output="$(hex2binary "$transcript" | \
$OPENSSL dgst "$hash_fn" -binary 2>/dev/null | \
$OPENSSL dgst "$hash_fn" -mac HMAC -macopt hexkey:"$key" 2>/dev/null)"
ret=$?
tm_out "$(toupper "${output#*= }")"
fi
return $ret
}
# arg1: hash function
# arg2: pseudorandom key (PRK)
# arg2: info
# arg3: length of output keying material in octets
# See RFC 5869, Section 2.3
hkdf-expand() {
local hash_fn="$1"
local prk="$2" info="$3" output=""
local -i out_len="$4"
local -i i n hash_len ret
local counter
local ti tim1 # T(i) and T(i-1)
case "$hash_fn" in
"-sha256") hash_len=32 ;;
"-sha384") hash_len=48 ;;
*) return 7
esac
n=$out_len/$hash_len
[[ $((out_len%hash_len)) -ne 0 ]] && n+=1
tim1=""
for (( i=1; i <= n; i++ )); do
counter="$(printf "%02X\n" $i)"
ti="$(hmac "$hash_fn" "$prk" "$tim1$info$counter")"
[[ $? -ne 0 ]] && return 7
output+="$ti"
tim1="$ti"
done
out_len=$((2*out_len))
tm_out "${output:0:out_len}"
return 0
}
# arg1: hash function
# arg2: secret
# arg3: label
# arg4: context
# arg5: length
# See RFC 8446, Section 7.1
hkdf-expand-label() {
local hash_fn="$1"
local secret="$2" label="$3"
local context="$4"
local -i length="$5"
local hkdflabel hkdflabel_label hkdflabel_context
local hkdflabel_length
local -i len
hkdflabel_length="$(printf "%04X\n" "$length")"
if [[ "${TLS_SERVER_HELLO:8:2}" == 7F ]] && [[ 0x${TLS_SERVER_HELLO:10:2} -lt 0x14 ]]; then
# "544c5320312e332c20" = "TLS 1.3, "
hkdflabel_label="544c5320312e332c20$label"
else
# "746c73313320" = "tls13 "
hkdflabel_label="746c73313320$label"
fi
len=${#hkdflabel_label}/2
hkdflabel_label="$(printf "%02X\n" "$len")$hkdflabel_label"
len=${#context}/2
hkdflabel_context="$(printf "%02X\n" "$len")$context"
hkdflabel="$hkdflabel_length$hkdflabel_label$hkdflabel_context"
hkdf-expand "$hash_fn" "$secret" "$hkdflabel" "$length"
return $?
}
# arg1: hash function
# arg2: secret
# arg3: label
# arg4: ASCII-HEX of messages
# See RFC 8446, Section 7.1
derive-secret() {
local hash_fn="$1"
local secret="$2" label="$3" messages="$4"
local hash_messages
local -i hash_len retcode
case "$hash_fn" in
"-sha256") hash_len=32 ;;
"-sha384") hash_len=48 ;;
*) return 7
esac
hash_messages="$(hex2binary "$messages" | $OPENSSL dgst "$hash_fn" 2>/dev/null)"
hash_messages="${hash_messages#*= }"
hkdf-expand-label "$hash_fn" "$secret" "$label" "$hash_messages" "$hash_len"
return $?
}
# arg1: hash function
# arg2: secret
# arg3: purpose ("key" or "iv")
# arg4: length of the key
# See RFC 8446, Section 7.3
derive-traffic-key() {
local hash_fn="$1"
local secret="$2" purpose="$3"
local -i key_length="$4"
local key
key="$(hkdf-expand-label "$hash_fn" "$secret" "$purpose" "" "$key_length")"
[[ $? -ne 0 ]] && return 7
tm_out "$key"
return 0
}
#arg1: TLS cipher
#arg2: First ClientHello, if response was a HelloRetryRequest
#arg3: HelloRetryRequest, if one was sent
#arg4: Final (or only) ClientHello
#arg5: ServerHello
create-initial-transcript() {
local cipher="$1"
local clienthello1="$2" hrr="$3" clienthello2="$4" serverhello="$5"
local hash_clienthello1 msg_transcript
if [[ -n "$hrr" ]] && [[ "${serverhello:8:4}" == 7F12 ]]; then
msg_transcript="$clienthello1$hrr$clienthello2$serverhello"
elif [[ -n "$hrr" ]]; then
if [[ "$cipher" == *SHA256 ]]; then
hash_fn="-sha256"
hash_len=32
elif [[ "$cipher" == *SHA384 ]]; then
hash_fn="-sha384"
hash_len=48
else
return 1
fi
hash_clienthello1="$(hex2binary "$clienthello1" | $OPENSSL dgst "$hash_fn" 2>/dev/null)"
hash_clienthello1="${hash_clienthello1#*= }"
msg_transcript="FE0000$(printf "%02x" $((${#hash_clienthello1}/2)))$hash_clienthello1$hrr$clienthello2$serverhello"
else
msg_transcript="$clienthello2$serverhello"
fi
tm_out "$msg_transcript"
return 0
}
#arg1: TLS cipher
#arg2: file containing cipher name, public key, and private key
derive-handshake-secret() {
local cipher="$1"
local tmpfile="$2"
local -i retcode
local hash_fn
local pub_file priv_file tmpfile
local early_secret derived_secret shared_secret handshake_secret
"$HAS_PKUTIL" || return 1
if [[ "$cipher" == *SHA256 ]]; then
hash_fn="-sha256"
elif [[ "$cipher" == *SHA384 ]]; then
hash_fn="-sha384"
else
return 1
fi
pub_file="$(mktemp "$TEMPDIR/pubkey.XXXXXX")" || return 7
awk '/-----BEGIN PUBLIC KEY/,/-----END PUBLIC KEY/ { print $0 }' \
"$tmpfile" > "$pub_file"
[[ ! -s "$pub_file" ]] && return 1
priv_file="$(mktemp "$TEMPDIR/privkey.XXXXXX")" || return 7
if grep -q "\-\-\-\-\-BEGIN EC PARAMETERS" "$tmpfile"; then
awk '/-----BEGIN EC PARAMETERS/,/-----END EC PRIVATE KEY/ { print $0 }' \
"$tmpfile" > "$priv_file"
else
awk '/-----BEGIN PRIVATE KEY/,/-----END PRIVATE KEY/ { print $0 }' \
"$tmpfile" > "$priv_file"
fi
[[ ! -s "$priv_file" ]] && return 1
# early_secret="$(hmac "$hash_fn" "000...000" "000...000")"
case "$hash_fn" in
"-sha256") early_secret="33ad0a1c607ec03b09e6cd9893680ce210adf300aa1f2660e1b22e10f170f92a"
if [[ "${TLS_SERVER_HELLO:8:2}" == 7F ]] && [[ 0x${TLS_SERVER_HELLO:10:2} -lt 0x14 ]]; then
# "6465726976656420736563726574" = "derived secret"
# derived_secret="$(derive-secret "$hash_fn" "$early_secret" "6465726976656420736563726574" "")"
derived_secret="c1c0c36bf8fb1d1afa949fbd360e71af69a6244a4c2eaef5bbbb6442a7277d2c"
else
# "64657269766564" = "derived"
# derived_secret="$(derive-secret "$hash_fn" "$early_secret" "64657269766564" "")"
derived_secret="6f2615a108c702c5678f54fc9dbab69716c076189c48250cebeac3576c3611ba"
fi
;;
"-sha384") early_secret="7ee8206f5570023e6dc7519eb1073bc4e791ad37b5c382aa10ba18e2357e716971f9362f2c2fe2a76bfd78dfec4ea9b5"
if [[ "${TLS_SERVER_HELLO:8:2}" == 7F ]] && [[ 0x${TLS_SERVER_HELLO:10:2} -lt 0x14 ]]; then
# "6465726976656420736563726574" = "derived secret"
# derived_secret="$(derive-secret "$hash_fn" "$early_secret" "6465726976656420736563726574" "")"
derived_secret="54c80fa05ee9e0532ce3db8ddeca37a0365683bcd3b27bdc88d2b9fdc115ca4ebc8edc1f0b72a6a0861e803fc34761ef"
else
# "64657269766564" = "derived"
# derived_secret="$(derive-secret "$hash_fn" "$early_secret" "64657269766564" "")"
derived_secret="1591dac5cbbf0330a4a84de9c753330e92d01f0a88214b4464972fd668049e93e52f2b16fad922fdc0584478428f282b"
fi
;;
esac
shared_secret="$($OPENSSL pkeyutl -derive -inkey "$priv_file" -peerkey "$pub_file" 2>/dev/null | hexdump -v -e '16/1 "%02X"')"
rm "$pub_file" "$priv_file"
# For draft 18 use $early_secret rather than $derived_secret.
if [[ "${TLS_SERVER_HELLO:8:4}" == "7F12" ]]; then
handshake_secret="$(hmac "$hash_fn" "$early_secret" "${shared_secret%%[!0-9A-F]*}")"
else
handshake_secret="$(hmac "$hash_fn" "$derived_secret" "${shared_secret%%[!0-9A-F]*}")"
fi
[[ $? -ne 0 ]] && return 7
tm_out "$handshake_secret"
return 0
}
# arg1: TLS cipher
# arg2: handshake secret
# arg3: transcipt
# arg4: "client" or "server"
derive-handshake-traffic-keys() {
local cipher="$1" handshake_secret="$2" transcript="$3"
local sender="$4"
local hash_fn
local -i hash_len key_len
local handshake_traffic_secret label key iv finished="0000"
if [[ "$cipher" == *SHA256 ]]; then
hash_fn="-sha256"
hash_len=32
elif [[ "$cipher" == *SHA384 ]]; then
hash_fn="-sha384"
hash_len=48
else
return 1
fi
if [[ "$cipher" == *AES_128* ]]; then
key_len=16
elif ( [[ "$cipher" == *AES_256* ]] || [[ "$cipher" == *CHACHA20_POLY1305* ]] ); then
key_len=32
else
return 1
fi
if [[ "${TLS_SERVER_HELLO:8:2}" == 7F ]] && [[ 0x${TLS_SERVER_HELLO:10:2} -lt 0x14 ]]; then
if [[ "$sender" == server ]]; then
# "7365727665722068616e647368616b65207472616666696320736563726574" = "server handshake traffic secret"
label="7365727665722068616e647368616b65207472616666696320736563726574"
else
# "636c69656e742068616e647368616b65207472616666696320736563726574" = "client handshake traffic secret"
label="636c69656e742068616e647368616b65207472616666696320736563726574"
fi
elif [[ "$sender" == server ]]; then
# "732068732074726166666963" = "s hs traffic"
label="732068732074726166666963"
else
# "632068732074726166666963" = "c hs traffic"
label="632068732074726166666963"
fi
handshake_traffic_secret="$(derive-secret "$hash_fn" "$handshake_secret" "$label" "$transcript")"
[[ $? -ne 0 ]] && return 7
# "6b6579" = "key"
key="$(derive-traffic-key "$hash_fn" "$handshake_traffic_secret" "6b6579" "$key_len")"
[[ $? -ne 0 ]] && return 1
# "6976" = "iv"
iv="$(derive-traffic-key "$hash_fn" "$handshake_traffic_secret" "6976" "12")"
[[ $? -ne 0 ]] && return 1
if [[ $DEBUG -ge 1 ]] || [[ "$sender" == client ]]; then
# "66696e6973686564" = "finished"
finished="$(derive-traffic-key "$hash_fn" "$handshake_traffic_secret" "66696e6973686564" "$hash_len")"
[[ $? -ne 0 ]] && return 1
fi
tm_out "$key $iv $finished"
}
#arg1: TLS cipher
#arg2: handshake secret
derive-master-secret() {
local cipher="$1"
local handshake_secret="$2"
local -i retcode
local hash_fn
local derived_secret zeros master_secret
if [[ "$cipher" == *SHA256 ]]; then
hash_fn="-sha256"
zeros="0000000000000000000000000000000000000000000000000000000000000000"
elif [[ "$cipher" == *SHA384 ]]; then
hash_fn="-sha384"
zeros="000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000"
else
return 1
fi
if [[ "${TLS_SERVER_HELLO:8:4}" == 7F12 ]]; then
derived_secret="$handshake_secret"
elif [[ "${TLS_SERVER_HELLO:8:2}" == 7F ]] && [[ 0x${TLS_SERVER_HELLO:10:2} -lt 0x14 ]]; then
derived_secret="$(derive-secret "$hash_fn" "$handshake_secret" "6465726976656420736563726574" "")"
else
derived_secret="$(derive-secret "$hash_fn" "$handshake_secret" "64657269766564" "")"
fi
master_secret="$(hmac "$hash_fn" "$derived_secret" "$zeros")"
[[ $? -ne 0 ]] && return 7
tm_out "$master_secret"
return 0
}
# arg1: TLS cipher
# arg2: master secret
# arg3: transcipt
# arg4: "client" or "server"
derive-application-traffic-keys() {
local cipher="$1" master_secret="$2" transcript="$3"
local sender="$4"
local hash_fn
local -i key_len
local application_traffic_secret_0 label key iv
if [[ "$cipher" == *SHA256 ]]; then
hash_fn="-sha256"
elif [[ "$cipher" == *SHA384 ]]; then
hash_fn="-sha384"
else
return 1
fi
if [[ "$cipher" == *AES_128* ]]; then
key_len=16
elif ( [[ "$cipher" == *AES_256* ]] || [[ "$cipher" == *CHACHA20_POLY1305* ]] ); then
key_len=32
else
return 1
fi
if [[ "${TLS_SERVER_HELLO:8:2}" == 7F ]] && [[ 0x${TLS_SERVER_HELLO:10:2} -lt 0x14 ]]; then
if [[ "$sender" == server ]]; then
# "736572766572206170706c69636174696f6e207472616666696320736563726574" = "server application traffic secret"
label="736572766572206170706c69636174696f6e207472616666696320736563726574"
else
# "636c69656e74206170706c69636174696f6e207472616666696320736563726574" = "client application traffic secret"
label="636c69656e74206170706c69636174696f6e207472616666696320736563726574"
fi
elif [[ "$sender" == server ]]; then
# "732061702074726166666963" = "s hs traffic"
label="732061702074726166666963"
else
# "632061702074726166666963" = "c hs traffic"
label="632061702074726166666963"
fi
application_traffic_secret_0="$(derive-secret "$hash_fn" "$master_secret" "$label" "$transcript")"
[[ $? -ne 0 ]] && return 7
# "6b6579" = "key"
key="$(derive-traffic-key "$hash_fn" "$application_traffic_secret_0" "6b6579" "$key_len")"
[[ $? -ne 0 ]] && return 1
# "6976" = "iv"
iv="$(derive-traffic-key "$hash_fn" "$application_traffic_secret_0" "6976" "12")"
[[ $? -ne 0 ]] && return 1
tm_out "$key $iv"
}
# See RFC 8439, Section 2.1
chacha20_Qround() {
local -i a="0x$1"
local -i b="0x$2"
local -i c="0x$3"
local -i d="0x$4"
local -i x y
a=$(((a+b) & 0xffffffff))
d=$((d^a))
# rotate d left 16 bits
x=$((d & 0xffff0000))
x=$((x >> 16))
y=$((d & 0x0000ffff))
y=$((y << 16))
d=$((x | y))
c=$(((c+d) & 0xffffffff))
b=$((b^c))
# rotate b left 12 bits
x=$((b & 0xfff00000))
x=$((x >> 20))
y=$((b & 0x000fffff))
y=$((y << 12))
b=$((x | y))
a=$(((a+b) & 0xffffffff))
d=$((d^a))
# rotate d left 8 bits
x=$((d & 0xff000000))
x=$((x >> 24))
y=$((d & 0x00ffffff))
y=$((y << 8))
d=$((x | y))
c=$(((c+d) & 0xffffffff))
b=$((b^c))
# rotate b left 7 bits
x=$((b & 0xfe000000))
x=$((x >> 25))
y=$((b & 0x01ffffff))
y=$((y << 7))
b=$((x | y))
tm_out "$(printf "%X" $a) $(printf "%X" $b) $(printf "%X" $c) $(printf "%X" $d)"
return 0
}
# See RFC 8439, Section 2.3.1
chacha20_inner_block() {
local s0="$1" s1="$2" s2="$3" s3="$4"
local s4="$5" s5="$6" s6="$7" s7="$8"
local s8="$9" s9="${10}" s10="${11}" s11="${12}"
local s12="${13}" s13="${14}" s14="${15}" s15="${16}"
local res
res="$(chacha20_Qround "$s0" "$s4" "$s8" "$s12")"
read -r s0 s4 s8 s12 <<< "$res"
res="$(chacha20_Qround "$s1" "$s5" "$s9" "$s13")"
read -r s1 s5 s9 s13 <<< "$res"
res="$(chacha20_Qround "$s2" "$s6" "$s10" "$s14")"
read -r s2 s6 s10 s14 <<< "$res"
res="$(chacha20_Qround "$s3" "$s7" "$s11" "$s15")"
read -r s3 s7 s11 s15 <<< "$res"
res="$(chacha20_Qround "$s0" "$s5" "$s10" "$s15")"
read -r s0 s5 s10 s15 <<< "$res"
res="$(chacha20_Qround "$s1" "$s6" "$s11" "$s12")"
read -r s1 s6 s11 s12 <<< "$res"
res="$(chacha20_Qround "$s2" "$s7" "$s8" "$s13")"
read -r s2 s7 s8 s13 <<< "$res"
res="$(chacha20_Qround "$s3" "$s4" "$s9" "$s14")"
read -r s3 s4 s9 s14 <<< "$res"
tm_out "$s0 $s1 $s2 $s3 $s4 $s5 $s6 $s7 $s8 $s9 $s10 $s11 $s12 $s13 $s14 $s15"
return 0
}
# See RFC 8439, Sections 2.3 and 2.3.1
chacha20_block() {
local key="$1"
local counter="$2"
local nonce="$3"
local s0 s1 s2 s3 s4 s5 s6 s7 s8 s9 s10 s11 s12 s13 s14 s15
local ws0 ws1 ws2 ws3 ws4 ws5 ws6 ws7 ws8 ws9 ws10 ws11 ws12 ws13 ws14 ws15
local working_state
local -i i
# create the state variable
s0="61707865"; s1="3320646e"; s2="79622d32"; s3="6b206574"
s4="${key:6:2}${key:4:2}${key:2:2}${key:0:2}"
s5="${key:14:2}${key:12:2}${key:10:2}${key:8:2}"
s6="${key:22:2}${key:20:2}${key:18:2}${key:16:2}"
s7="${key:30:2}${key:28:2}${key:26:2}${key:24:2}"
s8="${key:38:2}${key:36:2}${key:34:2}${key:32:2}"
s9="${key:46:2}${key:44:2}${key:42:2}${key:40:2}"
s10="${key:54:2}${key:52:2}${key:50:2}${key:48:2}"
s11="${key:62:2}${key:60:2}${key:58:2}${key:56:2}"
s12="$counter"
s13="${nonce:6:2}${nonce:4:2}${nonce:2:2}${nonce:0:2}"
s14="${nonce:14:2}${nonce:12:2}${nonce:10:2}${nonce:8:2}"
s15="${nonce:22:2}${nonce:20:2}${nonce:18:2}${nonce:16:2}"
# Initialize working_state to state
working_state="$s0 $s1 $s2 $s3 $s4 $s5 $s6 $s7 $s8 $s9 $s10 $s11 $s12 $s13 $s14 $s15"
# compute the 20 rounds (10 calls to inner block function, each of which
# performs 8 quarter rounds).
for (( i=0 ; i < 10; i++ )); do
working_state="$(chacha20_inner_block $working_state)"
done
read -r ws0 ws1 ws2 ws3 ws4 ws5 ws6 ws7 ws8 ws9 ws10 ws11 ws12 ws13 ws14 ws15 <<< "$working_state"
# Add working state to state
s0="$(printf "%08X" $(((0x$s0+0x$ws0) & 0xffffffff)))"
s1="$(printf "%08X" $(((0x$s1+0x$ws1) & 0xffffffff)))"
s2="$(printf "%08X" $(((0x$s2+0x$ws2) & 0xffffffff)))"
s3="$(printf "%08X" $(((0x$s3+0x$ws3) & 0xffffffff)))"
s4="$(printf "%08X" $(((0x$s4+0x$ws4) & 0xffffffff)))"
s5="$(printf "%08X" $(((0x$s5+0x$ws5) & 0xffffffff)))"
s6="$(printf "%08X" $(((0x$s6+0x$ws6) & 0xffffffff)))"
s7="$(printf "%08X" $(((0x$s7+0x$ws7) & 0xffffffff)))"
s8="$(printf "%08X" $(((0x$s8+0x$ws8) & 0xffffffff)))"
s9="$(printf "%08X" $(((0x$s9+0x$ws9) & 0xffffffff)))"
s10="$(printf "%08X" $(((0x$s10+0x$ws10) & 0xffffffff)))"
s11="$(printf "%08X" $(((0x$s11+0x$ws11) & 0xffffffff)))"
s12="$(printf "%08X" $(((0x$s12+0x$ws12) & 0xffffffff)))"
s13="$(printf "%08X" $(((0x$s13+0x$ws13) & 0xffffffff)))"
s14="$(printf "%08X" $(((0x$s14+0x$ws14) & 0xffffffff)))"
s15="$(printf "%08X" $(((0x$s15+0x$ws15) & 0xffffffff)))"
# serialize the state
s0="${s0:6:2}${s0:4:2}${s0:2:2}${s0:0:2}"
s1="${s1:6:2}${s1:4:2}${s1:2:2}${s1:0:2}"
s2="${s2:6:2}${s2:4:2}${s2:2:2}${s2:0:2}"
s3="${s3:6:2}${s3:4:2}${s3:2:2}${s3:0:2}"
s4="${s4:6:2}${s4:4:2}${s4:2:2}${s4:0:2}"
s5="${s5:6:2}${s5:4:2}${s5:2:2}${s5:0:2}"
s6="${s6:6:2}${s6:4:2}${s6:2:2}${s6:0:2}"
s7="${s7:6:2}${s7:4:2}${s7:2:2}${s7:0:2}"
s8="${s8:6:2}${s8:4:2}${s8:2:2}${s8:0:2}"
s9="${s9:6:2}${s9:4:2}${s9:2:2}${s9:0:2}"
s10="${s10:6:2}${s10:4:2}${s10:2:2}${s10:0:2}"
s11="${s11:6:2}${s11:4:2}${s11:2:2}${s11:0:2}"
s12="${s12:6:2}${s12:4:2}${s12:2:2}${s12:0:2}"
s13="${s13:6:2}${s13:4:2}${s13:2:2}${s13:0:2}"
s14="${s14:6:2}${s14:4:2}${s14:2:2}${s14:0:2}"
s15="${s15:6:2}${s15:4:2}${s15:2:2}${s15:0:2}"
tm_out "$s0$s1$s2$s3$s4$s5$s6$s7$s8$s9$s10$s11$s12$s13$s14$s15"
return 0
}
# See RFC 8439, Section 2.4
chacha20() {
local key="$1"
local -i counter=1
local nonce="$2"
local ciphertext="$3"
local -i i ciphertext_len num_blocks mod_check
local -i i1 i2 i3 i4 i5 i6 i7 i8 i9 i10 i11 i12 i13 i14 i15 i16
local keystream plaintext=""
if "$HAS_CHACHA20"; then
plaintext="$(hex2binary "$ciphertext" | \
$OPENSSL enc -chacha20 -K "$key" -iv "01000000$nonce" 2>/dev/null | hexdump -v -e '16/1 "%02X"')"
tm_out "$(strip_spaces "$plaintext")"
return 0
fi
ciphertext_len=${#ciphertext}
num_blocks=$ciphertext_len/128
for (( i=0; i < num_blocks; i++)); do
i1=$((128*i)); i2=$((i1+8)); i3=$((i1+16)); i4=$((i1+24)); i5=$((i1+32)); i6=$((i1+40)); i7=$((i1+48)); i8=$((i1+56))
i9=$((i1+64)); i10=$((i1+72)); i11=$((i1+80)); i12=$((i1+88)); i13=$((i1+96)); i14=$((i1+104)); i15=$((i1+112)); i16=$((i1+120))
keystream="$(chacha20_block "$key" "$(printf "%08X" $counter)" "$nonce")"
plaintext+="$(printf "%08X%08X%08X%08X%08X%08X%08X%08X%08X%08X%08X%08X%08X%08X%08X%08X" \
"$((0x${ciphertext:i1:8} ^ 0x${keystream:0:8}))" \
"$((0x${ciphertext:i2:8} ^ 0x${keystream:8:8}))" \
"$((0x${ciphertext:i3:8} ^ 0x${keystream:16:8}))" \
"$((0x${ciphertext:i4:8} ^ 0x${keystream:24:8}))" \
"$((0x${ciphertext:i5:8} ^ 0x${keystream:32:8}))" \
"$((0x${ciphertext:i6:8} ^ 0x${keystream:40:8}))" \
"$((0x${ciphertext:i7:8} ^ 0x${keystream:48:8}))" \
"$((0x${ciphertext:i8:8} ^ 0x${keystream:56:8}))" \
"$((0x${ciphertext:i9:8} ^ 0x${keystream:64:8}))" \
"$((0x${ciphertext:i10:8} ^ 0x${keystream:72:8}))" \
"$((0x${ciphertext:i11:8} ^ 0x${keystream:80:8}))" \
"$((0x${ciphertext:i12:8} ^ 0x${keystream:88:8}))" \
"$((0x${ciphertext:i13:8} ^ 0x${keystream:96:8}))" \
"$((0x${ciphertext:i14:8} ^ 0x${keystream:104:8}))" \
"$((0x${ciphertext:i15:8} ^ 0x${keystream:112:8}))" \
"$((0x${ciphertext:i16:8} ^ 0x${keystream:120:8}))")"
counter+=1
done
mod_check=$ciphertext_len%128
if [[ $mod_check -ne 0 ]]; then
keystream="$(chacha20_block "$key" "$(printf "%08X" $counter)" "$nonce")"
i1=$((128*num_blocks))
for (( i=0; i < mod_check; i+=2 )); do
plaintext+="$(printf "%02X" "$((0x${ciphertext:i1:2} ^ 0x${keystream:i:2}))")"
i1+=2
done
fi
tm_out "$plaintext"
return 0
}
# Implement U8to32 from https://github.com/floodyberry/poly1305-donna/blob/master/poly1305-donna-32.h
# Used to decode value encoded as 32-bit little-endian integer
u8to32() {
local p="$1"
tm_out "0x${p:6:2}${p:4:2}${p:2:2}${p:0:2}"
return 0
}
# Implement U32to8 from https://github.com/floodyberry/poly1305-donna/blob/master/poly1305-donna-32.h
# Used to encode value as 32-bit little-endian integer
u32to8() {
local -i v="$1"
local p
v=$((v & 0xffffffff))
p="$(printf "%08X" $v)"
tm_out "${p:6:2}${p:4:2}${p:2:2}${p:0:2}"
return 0
}
# Used to encode value as 64-bit little-endian integer
u64to8() {
local -i v="$1"
local p
p="$(printf "%016X" "$v")"
tm_out "${p:14:2}${p:12:2}${p:10:2}${p:8:2}${p:6:2}${p:4:2}${p:2:2}${p:0:2}"
return 0
}
# arg1: 32-byte key
# arg2: message to be authenticated
# See RFC 8439, Section 2.5
# Implementation based on https://github.com/floodyberry/poly1305-donna
poly1305_mac() {
local key="$1" nonce="$2" ciphertext="$3" aad="$4"
local mac_key msg
local -i ciphertext_len aad_len
local -i bytes
local -i r0 r1 r2 r3 r4
local -i h0=0 h1=0 h2=0 h3=0 h4=0
local -i pad0 pad1 pad2 pad3
local -i s1 s2 s3 s4
local -i d0 d1 d2 d3 d4
local -i g0 g1 g2 g3 g4
local -i i c f blocksize hibit
# poly1305_key_gen - RFC 8439, Section 2.6
# The MAC key is actually just the first 64 characters (32 bytes) of the
# output of the chacha20_block function. However, there is no need to
# truncate the key, since the code below will ignore all but the first
# 64 characters.
mac_key="$(chacha20_block "$key" "00000000" "$nonce")"
# Construct message to be authenticated. RFC 8439, Section 2.8
msg="$aad"
aad_len=$((${#aad}/2))
bytes=$(( aad_len % 16 ))
if [[ $bytes -ne 0 ]]; then
for (( i=bytes; i < 16; i++ )); do
msg+="00"
done
fi
msg+="$ciphertext"
ciphertext_len=$((${#ciphertext}/2))
bytes=$(( ciphertext_len % 16 ))
if [[ $bytes -ne 0 ]]; then
for (( i=bytes; i < 16; i++ )); do
msg+="00"
done
fi
msg+="$(u64to8 $aad_len)$(u64to8 $ciphertext_len)"
bytes="${#msg}"
# poly1305_init
r0=$(( $(u8to32 "${mac_key:0:8}") & 0x3ffffff ))
r1=$(( ($(u8to32 "${mac_key:6:8}") >> 2) & 0x3ffff03 ))
r2=$(( ($(u8to32 "${mac_key:12:8}") >> 4) & 0x3ffc0ff ))
r3=$(( ($(u8to32 "${mac_key:18:8}") >> 6) & 0x3f03fff ))
r4=$(( ($(u8to32 "${mac_key:24:8}") >> 8) & 0x00fffff ))
s1=$((r1*5))
s2=$((r2*5))
s3=$((r3*5))
s4=$((r4*5))
pad0=$(u8to32 "${mac_key:32:8}")
pad1=$(u8to32 "${mac_key:40:8}")
pad2=$(u8to32 "${mac_key:48:8}")
pad3=$(u8to32 "${mac_key:56:8}")
# poly1305_update
for (( 1 ; bytes > 0; bytes=bytes-blocksize )); do
if [[ $bytes -ge 32 ]]; then
blocksize=32
hibit=0x1000000
else
blocksize=$bytes
hibit=0
msg+="01"
for (( i=bytes+2; i < 32; i+=2 )); do
msg+="00"
done
fi
h0+=$(( $(u8to32 "${msg:0:8}") & 0x3ffffff ))
h1+=$(( ($(u8to32 "${msg:6:8}") >> 2) & 0x3ffffff ))
h2+=$(( ($(u8to32 "${msg:12:8}") >> 4) & 0x3ffffff ))
h3+=$(( ($(u8to32 "${msg:18:8}") >> 6) & 0x3ffffff ))
h4+=$(( (($(u8to32 "${msg:24:8}") >> 8) & 0xffffff) | hibit ))
d0=$(( h0*r0 + h1*s4 + h2*s3 + h3*s2 + h4*s1 ))
d1=$(( h0*r1 + h1*r0 + h2*s4 + h3*s3 + h4*s2 ))
d2=$(( h0*r2 + h1*r1 + h2*r0 + h3*s4 + h4*s3 ))
d3=$(( h0*r3 + h1*r2 + h2*r1 + h3*r0 + h4*s4 ))
d4=$(( h0*r4 + h1*r3 + h2*r2 + h3*r1 + h4*r0 ))
c=$(( (d0 >> 26) & 0x3fffffffff )); h0=$(( d0 & 0x3ffffff ))
d1+=$c; c=$(( (d1 >> 26) & 0x3fffffffff )); h1=$(( d1 & 0x3ffffff ))
d2+=$c; c=$(( (d2 >> 26) & 0x3fffffffff )); h2=$(( d2 & 0x3ffffff ))
d3+=$c; c=$(( (d3 >> 26) & 0x3fffffffff )); h3=$(( d3 & 0x3ffffff ))
d4+=$c; c=$(( (d4 >> 26) & 0x3fffffffff )); h4=$(( d4 & 0x3ffffff ))
h0+=$((c*5)); c=$(( (h0 >> 26) & 0x3fffffffff )); h0=$(( h0 & 0x3ffffff ))
h1+=$c
msg="${msg:32}"
done
# poly1305_finish
c=$(( (h0 >> 26) & 0x3f )); h1=$(( h1 & 0x3ffffff ))
h2+=$c; c=$(( (h2 >> 26) & 0x3f )); h2=$(( h2 & 0x3ffffff ))
h3+=$c; c=$(( (h3 >> 26) & 0x3f )); h3=$(( h3 & 0x3ffffff ))
h4+=$c; c=$(( (h4 >> 26) & 0x3f )); h4=$(( h4 & 0x3ffffff ))
h0+=$((c*5)); c=$(( (h0 >> 26) & 0x3f )); h0=$(( h0 & 0x3ffffff ))
h1+=$c
g0=$((h0+5)); c=$(( (g0 >> 26) & 0x3f )); g0=$(( g0 & 0x3ffffff ))
g1=$((h1+c)); c=$(( (g1 >> 26) & 0x3f )); g1=$(( g1 & 0x3ffffff ))
g2=$((h2+c)); c=$(( (g2 >> 26) & 0x3f )); g2=$(( g2 & 0x3ffffff ))
g3=$((h3+c)); c=$(( (g3 >> 26) & 0x3f )); g3=$(( g3 & 0x3ffffff ))
g4=$((h4+c-0x4000000))
if [[ $((g4 & 0x8000000000000000)) -eq 0 ]]; then
h0=$g0; h1=$g1; h2=$g2; h3=$g3; h4=$g4
fi
h0=$(( ( h0 | (h1 << 26)) & 0xffffffff))
h1=$(( ((h1 >> 6) | (h2 << 20)) & 0xffffffff))
h2=$(( ((h2 >> 12) | (h3 << 14)) & 0xffffffff))
h3=$(( ((h3 >> 18) | (h4 << 8)) & 0xffffffff))
f=$(( h0+pad0 )); h0=$f
f=$(( h1+pad1+(f>>32) )); h1=$f
f=$(( h2+pad2+(f>>32) )); h2=$f
f=$(( h3+pad3+(f>>32) )); h3=$f
tm_out "$(u32to8 $h0)$(u32to8 $h1)$(u32to8 $h2)$(u32to8 $h3)"
return 0
}
# arg1: key
# arg2: nonce (must be 96 bits in length)
# arg3: ciphertext
# arg4: additional authenticated data
# arg5: expected tag
# arg6: true if authentication tag should be checked. false otherwise.
chacha20_aead_decrypt() {
local key="$1" nonce="$2" ciphertext="$3" aad="$4" expected_tag="$(toupper "$5")"
local compute_tag="$6"
local plaintext computed_tag
plaintext="$(chacha20 "$key" "$nonce" "$ciphertext")"
[[ $? -ne 0 ]] && return 7
if "$compute_tag"; then
computed_tag="$(poly1305_mac "$key" "$nonce" "$ciphertext" "$aad")"
[[ $? -ne 0 ]] && return 7
[[ "$computed_tag" == $expected_tag ]] || return 7
fi
tm_out "$plaintext"
return 0
}
# arg1: key
# arg2: nonce (must be 96 bits in length)
# arg3: plaintext
# arg4: additional authenticated data
chacha20_aead_encrypt() {
local key="$1" nonce="$2" plaintext="$3" aad="$4"
local ciphertext computed_tag
ciphertext="$(chacha20 "$key" "$nonce" "$plaintext")"
[[ $? -ne 0 ]] && return 7
computed_tag="$(poly1305_mac "$key" "$nonce" "$ciphertext" "$aad")"
[[ $? -ne 0 ]] && return 7
tm_out "$ciphertext $computed_tag"
return 0
}
# arg1: nonce (must be 96 bits)
# arg2: number of blocks needed for plaintext/ciphertext
# Generate the sequence of counter blocks, which are to be encrypted and then
# XORed with either the plaintext or the ciphertext.
# See Section 6.1, Section 6.2, and Appendix A.3 of NIST SP 800-38C and
# Section 5.3 of RFC 5116.
generate-ccm-counter-blocks() {
local ctr="02${1}000000" ctr_msb blocks=""
local -i i ctr_lsb n="$2"
ctr_msb="${ctr:0:24}"
ctr_lsb=0x${ctr:24:8}
for (( i=0; i <= n; i+=1 )); do
blocks+="${ctr_msb}$(printf "%08X" "$ctr_lsb")"
ctr_lsb+=1
done
hex2binary "$blocks"
return 0
}
# arg1: an OpenSSL ecb cipher (e.g., -aes-128-ecb)
# arg2: key
# arg3: iv (must be 96 bits in length)
# arg4: additional authenticated data
# arg5: plaintext
# arg6: tag length (must be 16 or 32)
# Compute the CCM authentication tag
ccm-compute-tag() {
local cipher="$1" key="$2" iv="$3" aad="$4" plaintext="$5"
local -i tag_len="$6"
local b tag
local -i i aad_len plaintext_len final_block_len nr_blocks
aad_len=$((${#aad}/2))
plaintext_len=$((${#plaintext}/2))
# Apply the formatting function to create b=B0B1B2... as in
# Appendix A.2 of NIST SP 800-38C.
# The first block consists of the flags, nonce, and length of plaintext
# See Section 5.3 of RFC 5116 for value of q.
if [[ $aad_len -ne 0 ]]; then
if [[ $tag_len -eq 16 ]]; then
b="5A${iv}$(printf "%06X" $plaintext_len)"
else
b="7A${iv}$(printf "%06X" $plaintext_len)"
fi
elif [[ $tag_len -eq 16 ]]; then
b="1A${iv}$(printf "%06X" $plaintext_len)"
else
b="3A${iv}$(printf "%06X" $plaintext_len)"
fi
# Next comes any additional authenticated data
if [[ $aad_len -ne 0 ]]; then
if [[ $aad_len -lt 0xFF00 ]]; then
b+="$(printf "%04X" $aad_len)$aad"
final_block_len=$(( (aad_len+2) % 16 ))
elif [[ $aad_len -lt 0x100000000 ]]; then
b+="FFFE$(printf "%08X" $aad_len)$aad"
final_block_len=$(( (aad_len+6) % 16 ))
else
# AES-CCM supports lengths up to 2^64, but there doesn't
# seem to be any reason to try to support such lengths.
return 7
fi
# Add padding to complete block
if [[ $final_block_len -ne 0 ]]; then
for (( i=final_block_len; i < 16; i++ )); do
b+="00"
done
fi
fi
# Finally add the plaintext and any padding needed to complete block
b+="$plaintext"
final_block_len=$((plaintext_len % 16))
if [[ $final_block_len -ne 0 ]]; then
for (( i=final_block_len; i < 16; i++ )); do
b+="00"
done
fi
# Compute the authentication tag as described in
# Sections 6.1 and 6.2 of NIST SP 800-38C.
nr_blocks=$((${#b}/32))
tag="${b:0:32}"
for (( i=0; i < nr_blocks; i++ )); do
# XOR current block with previous block and then encrypt
[[ $i -ne 0 ]] &&
tag="$(printf "%08X%08X%08X%08X" "$((0x${b:0:8} ^ 0x${tag:0:8}))" "$((0x${b:8:8} ^ 0x${tag:8:8}))" "$((0x${b:16:8} ^ 0x${tag:16:8}))" "$((0x${b:24:8} ^ 0x${tag:24:8}))")"
tag="$(hex2binary "$tag" | $OPENSSL enc "$cipher" -K "$key" -nopad 2>/dev/null | hexdump -v -e '16/1 "%02X"')"
b="${b:32}"
done
tm_out "${tag:0:tag_len}"
return 0
}
# arg1: AES-CCM TLS cipher
# arg2: key
# arg3: nonce (must be 96 bits in length)
# arg4: ciphertext
# arg5: additional authenticated data
# arg6: expected tag (must be 16 or 32 characters)
# arg7: true if authentication tag should be checked. false otherwise.
# See Section 6.2 of NIST SP 800-38C
ccm-decrypt() {
local cipher="$1" key="$2" nonce="$3" ciphertext="$4" aad="$5" enciphered_expected_tag="$6"
local compute_tag="$7"
local plaintext="" expected_tag computed_tag
local -i i i1 i2 i3 i4 tag_len
local -i ciphertext_len n mod_check
local s s0
[[ ${#nonce} -ne 24 ]] && return 7
case "$cipher" in
*AES_128*) cipher="-aes-128-ecb" ;;
*AES_256*) cipher="-aes-256-ecb" ;;
*) return 7
esac
ciphertext_len=${#ciphertext}
n=$((ciphertext_len/32))
mod_check=$((ciphertext_len%32))
[[ $mod_check -ne 0 ]] && n+=1
# generate keystream
s="$(generate-ccm-counter-blocks "$nonce" "$n" | $OPENSSL enc "$cipher" -K "$key" -nopad 2>/dev/null | hexdump -v -e '16/1 "%02X"')"
# The first 16-bytes of the keystream ($s) are used to decrypt the
# authentication tag and the remaining bytes are used to decrypt the
# ciphertext.
s0="${s:0:32}"
s="${s:32}"
# XOR the ciphertext with the keystream ($s). For efficiency, work in blocks
# of 16 bytes at a time (but with each XOR operation working on 32 bits.
[[ $mod_check -ne 0 ]] && n=$((n-1))
for (( i=0; i < n; i++ )); do
i1=$((32*i)); i2=$((i1+8)); i3=$((i1+16)); i4=$((i1+24))
plaintext+="$(printf "%08X%08X%08X%08X" "$((0x${ciphertext:i1:8} ^ 0x${s:i1:8}))" "$((0x${ciphertext:i2:8} ^ 0x${s:i2:8}))" "$((0x${ciphertext:i3:8} ^ 0x${s:i3:8}))" "$((0x${ciphertext:i4:8} ^ 0x${s:i4:8}))")"
done
# If the length of the ciphertext is not an even multiple of 16 bytes, then handle the final incomplete block.
if [[ $mod_check -ne 0 ]]; then
i1=$((32*n))
for (( i=0; i < mod_check; i+=2 )); do
plaintext+="$(printf "%02X" "$((0x${ciphertext:i1:2} ^ 0x${s:i1:2}))")"
i1+=2
done
fi
if "$compute_tag"; then
tag_len=${#enciphered_expected_tag}
# Decrypt the authentication tag that was provided with the message
if [[ $tag_len -eq 16 ]]; then
expected_tag="$(printf "%08X%08X" "$((0x${enciphered_expected_tag:0:8} ^ 0x${s0:0:8}))" "$((0x${enciphered_expected_tag:8:8} ^ 0x${s0:8:8}))")"
elif [[ $tag_len -eq 32 ]]; then
expected_tag="$(printf "%08X%08X%08X%08X" "$((0x${enciphered_expected_tag:0:8} ^ 0x${s0:0:8}))" "$((0x${enciphered_expected_tag:8:8} ^ 0x${s0:8:8}))" "$((0x${enciphered_expected_tag:16:8} ^ 0x${s0:16:8}))" "$((0x${enciphered_expected_tag:24:8} ^ 0x${s0:24:8}))")"
else
return 7
fi
# obtain the actual authentication tag for the decrypted message
computed_tag="$(ccm-compute-tag "$cipher" "$key" "$nonce" "$aad" "$plaintext" "$tag_len")"
[[ $? -ne 0 ]] && return 7
fi
if ! "$compute_tag" || [[ "$computed_tag" == $expected_tag ]]; then
tm_out "$plaintext"
return 0
else
return 7
fi
}
# arg1: AES-CCM TLS cipher
# arg2: key
# arg3: nonce (must be 96 bits in length)
# arg4: plaintext
# arg5: additional authenticated data
# See Section 6.1 of NIST SP 800-38C
ccm-encrypt() {
local cipher="$1" key="$2" nonce="$3" plaintext="$4" aad="$5"
local -i tag_len
local ossl_cipher="-aes-128-ecb"
local ciphertext="" tag encrypted_tag
local -i i i1 i2 i3 i4
local -i plaintext_len n mod_check
local s s0
[[ ${#nonce} -ne 24 ]] && return 7
case "$cipher" in
TLS_AES_128_CCM_SHA256) tag_len=32 ;;
TLS_AES_128_CCM_8_SHA256) tag_len=16 ;;
*) return 7
esac
# compute the authentication tag
tag="$(ccm-compute-tag "$ossl_cipher" "$key" "$nonce" "$aad" "$plaintext" "$tag_len")"
[[ $? -ne 0 ]] && return 7
plaintext_len=${#plaintext}
n=$((plaintext_len/32))
mod_check=$((plaintext_len%32))
[[ $mod_check -ne 0 ]] && n+=1
# generate keystream
s="$(generate-ccm-counter-blocks "$nonce" "$n" | $OPENSSL enc "$ossl_cipher" -K "$key" -nopad 2>/dev/null | hexdump -v -e '16/1 "%02X"')"
# encrypt the authentication tag using the first 16 bytes of the keystrem ($s)
if [[ $tag_len -eq 16 ]]; then
encrypted_tag="$(printf "%08X%08X" "$((0x${tag:0:8} ^ 0x${s:0:8}))" "$((0x${tag:8:8} ^ 0x${s:8:8}))")"
elif [[ $tag_len -eq 32 ]]; then
encrypted_tag="$(printf "%08X%08X%08X%08X" "$((0x${tag:0:8} ^ 0x${s:0:8}))" "$((0x${tag:8:8} ^ 0x${s:8:8}))" "$((0x${tag:16:8} ^ 0x${s:16:8}))" "$((0x${tag:24:8} ^ 0x${s:24:8}))")"
else
return 7
fi
# XOR the plaintext with the keystream ($s). For efficiency, work in blocks
# of 16 bytes at a time (but with each XOR operation working on 32 bits.
s="${s:32}"
[[ $mod_check -ne 0 ]] && n=$((n-1))
for (( i=0; i < n; i++ )); do
i1=$((32*i)); i2=$((i1+8)); i3=$((i1+16)); i4=$((i1+24))
ciphertext+="$(printf "%08X%08X%08X%08X" "$((0x${plaintext:i1:8} ^ 0x${s:i1:8}))" "$((0x${plaintext:i2:8} ^ 0x${s:i2:8}))" "$((0x${plaintext:i3:8} ^ 0x${s:i3:8}))" "$((0x${plaintext:i4:8} ^ 0x${s:i4:8}))")"
done
# If the length of the plaintext is not an even multiple of 16 bytes, then handle the final incomplete block.
if [[ $mod_check -ne 0 ]]; then
i1=$((32*n))
for (( i=0; i < mod_check; i+=2 )); do
ciphertext+="$(printf "%02X" "$((0x${plaintext:i1:2} ^ 0x${s:i1:2}))")"
i1+=2
done
fi
tm_out "$ciphertext$encrypted_tag"
return 0
}
# This function is based on gcm_mult in https://github.com/mko-x/SharedAES-GCM
# args 1-16: HL from gcm_ctx
# args 17-32: HH from gcm_ctx
# args 33-48: x - the input vector
gcm_mult() {
local -a gcm_ctx_hl=( "$1" "$2" "$3" "$4" "$5" "$6" "$7" "$8" "$9" "${10}" "${11}" "${12}" "${13}" "${14}" "${15}" "${16}" )
local -a gcm_ctx_hh=( "${17}" "${18}" "${19}" "${20}" "${21}" "${22}" "${23}" "${24}" "${25}" "${26}" "${27}" "${28}" "${29}" "${30}" "${31}" "${32}" )
local -a x=( "${33}" "${34}" "${35}" "${36}" "${37}" "${38}" "${39}" "${40}" "${41}" "${42}" "${43}" "${44}" "${45}" "${46}" "${47}" "${48}" )
local output
local -i i lo hi rem zh zl
local -r -a -i last4=(0x0000 0x1c20 0x3840 0x2460 0x7080 0x6ca0 0x48c0 0x54e0 0xe100 0xfd20 0xd940 0xc560 0x9180 0x8da0 0xa9c0 0xb5e0)
lo=$((0x${x[15]} & 0x0F))
hi=$((0x${x[15]} >> 4))
zh=0x${gcm_ctx_hh[$lo]}
zl=0x${gcm_ctx_hl[$lo]}
for (( i=15; i >=0; i=i-1 )); do
lo=$((0x${x[i]} & 0x0F))
hi=$((0x${x[i]} >> 4))
if [[ $i -ne 15 ]]; then
rem=$((zl & 0x0F))
zl=$(((zl >> 4) & 0x0fffffffffffffff))
zl=$(((zh << 60) | zl))
zh=$(((zh >> 4) & 0x0fffffffffffffff))
zh=$((zh^(last4[rem] << 48)))
zh=$((zh^0x${gcm_ctx_hh[$lo]}))
zl=$((zl^0x${gcm_ctx_hl[$lo]}))
fi
rem=$((zl & 0x0F))
zl=$(((zl >> 4) & 0x0fffffffffffffff))
zl=$(((zh << 60) | zl))
zh=$(((zh >> 4) & 0x0fffffffffffffff))
zh=$((zh^(last4[rem] << 48)))
zh=$((zh^0x${gcm_ctx_hh[$hi]}))
zl=$((zl^0x${gcm_ctx_hl[$hi]}))
done
output="$(printf "%016X" $zh)$(printf "%016X" $zl)"
tm_out "${output:0:2} ${output:2:2} ${output:4:2} ${output:6:2} ${output:8:2} ${output:10:2} ${output:12:2} ${output:14:2} ${output:16:2} ${output:18:2} ${output:20:2} ${output:22:2} ${output:24:2} ${output:26:2} ${output:28:2} ${output:30:2}"
return 0
}
# arg1: nonce (must be 96 bits)
# arg2: number of blocks needed for plaintext/ciphertext
# Generate the sequence of counter blocks, which are to be encrypted and then
# XORed with either the plaintext or the ciphertext. The first block that is
# encrypted is used in computing the authentication tag.
generate_gcm_ctr() {
local -i nr_blocks="$1"
local nonce="$2"
local -i i
local ctr=""
for (( i=1; i <= nr_blocks; i++ )); do
ctr+="${nonce}$(printf "%08X" "$i")"
done
hex2binary "$ctr"
return 0
}
# arg1: an OpenSSL ecb cipher (e.g., -aes-128-ecb)
# arg2: key
# arg3: nonce (must be 96 bits in length)
# arg4: ciphertext
# arg5: aad
# arg6: mode
# arg7: true if authentication tag should be computed. false otherwise.
# This function is based on gcm_setkey, gcm_start, gcm_update, and gcm_finish
# in https://github.com/mko-x/SharedAES-GCM
gcm() {
local cipher="$1" aes_key="$2" nonce="$3" input="$4" aad="$5" mode="$6"
local compute_tag="$7"
local -a -i gcm_ctx_hl=(0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0)
local -a -i gcm_ctx_hh=(0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0)
local -a -i tag
local -a gcm_ctx_buf=("00" "00" "00" "00" "00" "00" "00" "00" "00" "00" "00" "00" "00" "00" "00" "00" )
local -i i j hi lo vl vh t length
local h hl="" hh="" buf ectr base_ectr tmp
local -i input_len="$((${#input}/2))" aad_len="$((${#aad}/2))" use_len
if "$compute_tag"; then
# gcm_setkey - populate HL and HH from gcm_ctx
h+=$(printf "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"| \
$OPENSSL enc "$cipher" -K "$aes_key" -nopad 2>/dev/null | hexdump -v -e '16/1 "%02X"')
hi=0x${h:0:8}
lo=0x${h:8:8}
vh=$(((hi << 32) | lo))
hi=0x${h:16:8}
lo=0x${h:24:8}
vl=$(((hi << 32) | lo))
gcm_ctx_hl[8]=$vl
gcm_ctx_hh[8]=$vh
gcm_ctx_hh[0]=0
gcm_ctx_hl[0]=0
for (( i=4; i > 0; i=i>>1 )); do
t=$(((vl & 1) * 0xe1000000))
vl=$(((vl >> 1) & 0x7fffffffffffffff))
vl=$(((vh << 63) | vl))
vh=$(((vh >> 1) & 0x7fffffffffffffff))
vh=$((vh ^ (t << 32)))
gcm_ctx_hl[i]=$vl
gcm_ctx_hh[i]=$vh
done
for (( i=2; i < 16; i=i<<1 )); do
vh=${gcm_ctx_hh[i]}
vl=${gcm_ctx_hl[i]}
for (( j=1; j < i; j++ )); do
gcm_ctx_hh[$((i+j))]=$((vh ^ gcm_ctx_hh[j]))
gcm_ctx_hl[$((i+j))]=$((vl ^ gcm_ctx_hl[j]))
done
done
# place HL and HH in strings so that can be passed to gcm_mult
for (( i=0; i < 16; i++ )); do
hl+="$(printf "%016X" ${gcm_ctx_hl[i]}) "
hh+="$(printf "%016X" ${gcm_ctx_hh[i]}) "
done
# Feed any additional authenticated data into the computation for the authentication tag.
for (( i=0; i < aad_len; i+=use_len )); do
[[ $((aad_len-i)) -lt 16 ]] && use_len=$((aad_len-i)) || use_len=16
for (( j=0; j < use_len; j++ )); do
gcm_ctx_buf[j]="$(printf "%02X" $((0x${gcm_ctx_buf[j]} ^ 0x${aad:$((2*i+2*j)):2})))"
done
buf="$(gcm_mult $hl $hh ${gcm_ctx_buf[0]} ${gcm_ctx_buf[1]} ${gcm_ctx_buf[2]} ${gcm_ctx_buf[3]} ${gcm_ctx_buf[4]} ${gcm_ctx_buf[5]} ${gcm_ctx_buf[6]} ${gcm_ctx_buf[7]} ${gcm_ctx_buf[8]} ${gcm_ctx_buf[9]} ${gcm_ctx_buf[10]} ${gcm_ctx_buf[11]} ${gcm_ctx_buf[12]} ${gcm_ctx_buf[13]} ${gcm_ctx_buf[14]} ${gcm_ctx_buf[15]})"
read -r gcm_ctx_buf[0] gcm_ctx_buf[1] gcm_ctx_buf[2] gcm_ctx_buf[3] gcm_ctx_buf[4] gcm_ctx_buf[5] gcm_ctx_buf[6] gcm_ctx_buf[7] gcm_ctx_buf[8] gcm_ctx_buf[9] gcm_ctx_buf[10] gcm_ctx_buf[11] gcm_ctx_buf[12] gcm_ctx_buf[13] gcm_ctx_buf[14] gcm_ctx_buf[15] <<< "$buf"
done
fi
j=$((1 + input_len/16))
[[ $((input_len%16)) -ne 0 ]] && j+=1
ectr="$(generate_gcm_ctr "$j" "$nonce" | $OPENSSL enc "$cipher" -K "$aes_key" -nopad 2>/dev/null | hexdump -v -e '16/1 "%02X"')"
base_ectr="${ectr:0:32}"
ectr="${ectr:32}"
# gcm_update
# Encrypt or decrypt the input and feed the ciphertext into the computation for the authentication tag.
for (( length=input_len; length > 0; length=length-use_len )); do
[[ $length -lt 16 ]] && use_len=$length || use_len=16
if [[ $use_len -eq 16 ]]; then
tmp="$(printf "%08X%08X%08X%08X" "$((0x${ectr:0:8} ^ 0x${input:0:8}))" "$((0x${ectr:8:8} ^ 0x${input:8:8}))" "$((0x${ectr:16:8} ^ 0x${input:16:8}))" "$((0x${ectr:24:8} ^ 0x${input:24:8}))")"
else
tmp=""
for (( i=0; i < use_len; i++ )); do
tmp+="$(printf "%02X" $((0x${ectr:$((2*i)):2} ^ 0x${input:$((2*i)):2})))"
done
fi
output+="$tmp"
if "$compute_tag"; then
[[ $mode == decrypt ]] && tmp="${input:0:32}"
for (( i=0; i < use_len; i++ )); do
gcm_ctx_buf[i]="$(printf "%02X" $((0x${gcm_ctx_buf[i]} ^ 0x${tmp:$((2*i)):2})))"
done
fi
ectr="${ectr:32}"
if "$compute_tag"; then
tmp="$(gcm_mult $hl $hh ${gcm_ctx_buf[0]} ${gcm_ctx_buf[1]} ${gcm_ctx_buf[2]} ${gcm_ctx_buf[3]} ${gcm_ctx_buf[4]} ${gcm_ctx_buf[5]} ${gcm_ctx_buf[6]} ${gcm_ctx_buf[7]} ${gcm_ctx_buf[8]} ${gcm_ctx_buf[9]} ${gcm_ctx_buf[10]} ${gcm_ctx_buf[11]} ${gcm_ctx_buf[12]} ${gcm_ctx_buf[13]} ${gcm_ctx_buf[14]} ${gcm_ctx_buf[15]})"
read -r gcm_ctx_buf[0] gcm_ctx_buf[1] gcm_ctx_buf[2] gcm_ctx_buf[3] gcm_ctx_buf[4] gcm_ctx_buf[5] gcm_ctx_buf[6] gcm_ctx_buf[7] gcm_ctx_buf[8] gcm_ctx_buf[9] gcm_ctx_buf[10] gcm_ctx_buf[11] gcm_ctx_buf[12] gcm_ctx_buf[13] gcm_ctx_buf[14] gcm_ctx_buf[15] <<< "$tmp"
fi
input="${input:$((2*use_len))}"
done
if "$compute_tag"; then
# gcm_finish - feed the lengths of the ciphertext and additional authenticated data
# into the computation for the authentication tag.
input_len=$((8*input_len))
aad_len=$((8*aad_len))
output+=" "
for (( i=0; i < 16; i++ )); do
tag[i]=0x${base_ectr:$((2*i)):2}
done
if ( [[ $input_len -ne 0 ]] || [[ $aad_len -ne 0 ]] ); then
buf="$(printf "%016X" $aad_len)$(printf "%016X" $input_len)"
for (( i=0; i < 16; i++ )); do
gcm_ctx_buf[i]="$(printf "%02X" $((0x${gcm_ctx_buf[i]} ^ 0x${buf:$((2*i)):2})))"
done
buf="$(gcm_mult $hl $hh ${gcm_ctx_buf[0]} ${gcm_ctx_buf[1]} ${gcm_ctx_buf[2]} ${gcm_ctx_buf[3]} ${gcm_ctx_buf[4]} ${gcm_ctx_buf[5]} ${gcm_ctx_buf[6]} ${gcm_ctx_buf[7]} ${gcm_ctx_buf[8]} ${gcm_ctx_buf[9]} ${gcm_ctx_buf[10]} ${gcm_ctx_buf[11]} ${gcm_ctx_buf[12]} ${gcm_ctx_buf[13]} ${gcm_ctx_buf[14]} ${gcm_ctx_buf[15]})"
read -r gcm_ctx_buf[0] gcm_ctx_buf[1] gcm_ctx_buf[2] gcm_ctx_buf[3] gcm_ctx_buf[4] gcm_ctx_buf[5] gcm_ctx_buf[6] gcm_ctx_buf[7] gcm_ctx_buf[8] gcm_ctx_buf[9] gcm_ctx_buf[10] gcm_ctx_buf[11] gcm_ctx_buf[12] gcm_ctx_buf[13] gcm_ctx_buf[14] gcm_ctx_buf[15] <<< "$buf"
for (( i=0; i < 16; i++ )); do
tag[i]=$((tag[i] ^ 0x${gcm_ctx_buf[i]}))
done
fi
for (( i=0; i < 16; i++ )); do
output+="$(printf "%02X" ${tag[i]})"
done
fi
tm_out "$output"
return 0
}
# arg1: AES-GCM TLS cipher
# arg2: key
# arg3: nonce (must be 96 bits in length)
# arg4: ciphertext
# arg5: aad
# arg6: expected tag
# arg7: true if authentication tag should be checked. false otherwise.
gcm-decrypt() {
local cipher="$1" key="$2" nonce="$3" ciphertext="$4" aad="$5" expected_tag="$(toupper "$6")"
local compute_tag="$7"
local plaintext computed_tag tmp
[[ ${#nonce} -ne 24 ]] && return 7
if [[ "$cipher" == TLS_AES_128_GCM_SHA256 ]] && "$HAS_AES128_GCM" && ! "$compute_tag"; then
plaintext="$(hex2binary "$ciphertext" | \
$OPENSSL enc -aes-128-gcm -K "$key" -iv "$nonce" 2>/dev/null | hexdump -v -e '16/1 "%02X"')"
tm_out "$(strip_spaces "$plaintext")"
return 0
elif [[ "$cipher" == TLS_AES_256_GCM_SHA384 ]] && "$HAS_AES256_GCM" && ! "$compute_tag"; then
plaintext="$(hex2binary "$ciphertext" | \
$OPENSSL enc -aes-256-gcm -K "$key" -iv "$nonce" 2>/dev/null | hexdump -v -e '16/1 "%02X"')"
tm_out "$(strip_spaces "$plaintext")"
return 0
fi
case "$cipher" in
*AES_128*) cipher="-aes-128-ecb" ;;
*AES_256*) cipher="-aes-256-ecb" ;;
*) return 7
esac
tmp="$(gcm "$cipher" "$key" "$nonce" "$ciphertext" "$aad" "decrypt" "$compute_tag")"
[[ $? -ne 0 ]] && return 7
computed_tag="${tmp##* }"
plaintext="${tmp% $computed_tag}"
if ! "$compute_tag" || [[ "$computed_tag" == $expected_tag ]]; then
tm_out "$plaintext"
return 0
else
return 7
fi
}
# arg1: AES-GCM TLS cipher
# arg2: key
# arg3: nonce (must be 96 bits in length)
# arg4: plaintext
# arg5: aad
# See Section 7.2 of SP 800-38D
gcm-encrypt() {
local cipher
case "$1" in
*AES_128*) cipher="-aes-128-ecb" ;;
*AES_256*) cipher="-aes-256-ecb" ;;
*) return 7
esac
[[ ${#3} -ne 24 ]] && return 7
tm_out "$(gcm "$cipher" "$2" "$3" "$4" "$5" "encrypt" true)"
return $?
}
# arg1: TLS cipher
# arg2: key
# arg3: nonce (must be 96 bits in length)
# arg4: ciphertext
# arg5: additional authenticated data
sym-decrypt() {
local cipher="$1"
local key="$2" nonce="$3"
local ciphertext="$4"
local additional_data="$5"
local plaintext
local -i ciphertext_len tag_len
local compute_tag=false
case "$cipher" in
*CCM_8*)
tag_len=16 ;;
*CCM*|*GCM*|*CHACHA20_POLY1305*)
tag_len=32 ;;
*)
return 7 ;;
esac
# The final $tag_len characters of the ciphertext are the authentication tag
ciphertext_len=${#ciphertext}
[[ $ciphertext_len -lt $tag_len ]] && return 7
ciphertext_len=$((ciphertext_len-tag_len))
# In general there is no need to verify that the authentication tag is correct
# when decrypting, and performing the check is time consuming when the
# computations are performed in Bash. If the ciphertext is very long (e.g.,
# some application data), then trying to compute the authentication tag is
# too time consuming even for debug mode.
[[ $DEBUG -ge 1 ]] && [[ $ciphertext_len -le 1024 ]] && compute_tag=true
if [[ "$cipher" =~ CHACHA20_POLY1305 ]]; then
plaintext="$(chacha20_aead_decrypt "$key" "$nonce" "${ciphertext:0:ciphertext_len}" "$additional_data" "${ciphertext:ciphertext_len:tag_len}" "$compute_tag")"
elif [[ "$cipher" =~ CCM ]]; then
plaintext=$(ccm-decrypt "$cipher" "$key" "$nonce" "${ciphertext:0:ciphertext_len}" "$additional_data" "${ciphertext:ciphertext_len:tag_len}" "$compute_tag")
else # GCM
plaintext=$(gcm-decrypt "$cipher" "$key" "$nonce" "${ciphertext:0:ciphertext_len}" "$additional_data" "${ciphertext:ciphertext_len:tag_len}" "$compute_tag")
fi
[[ $? -ne 0 ]] && return 7
tm_out "$plaintext"
return 0
}
# arg1: TLS cipher
# arg2: key
# arg3: nonce (must be 96 bits in length)
# arg4: plaintext
# arg5: additional authenticated data
sym-encrypt() {
local cipher="$1" key="$2" nonce="$3" plaintext="$4" additional_data="$5"
local ciphertext=""
if [[ "$cipher" =~ CCM ]]; then
ciphertext=$(ccm-encrypt "$cipher" "$key" "$nonce" "$plaintext" "$additional_data")
elif [[ "$cipher" =~ GCM ]]; then
ciphertext=$(gcm-encrypt "$cipher" "$key" "$nonce" "$plaintext" "$additional_data")
elif [[ "$cipher" =~ CHACHA20_POLY1305 ]]; then
ciphertext="$(chacha20_aead_encrypt "$key" "$nonce" "$plaintext" "$additional_data")"
else
return 7
fi
[[ $? -ne 0 ]] && return 7
tm_out "$(strip_spaces "$ciphertext")"
return 0
}
# arg1: iv
# arg2: sequence number
get-nonce() {
local iv="$1"
local -i seq_num="$2"
local -i len lsb
local msb nonce
len=${#iv}
[[ $len -lt 8 ]] && return 7
i=$len-8
msb="${iv:0:i}"
lsb="0x${iv:i:8}"
nonce="${msb}$(printf "%08X" "$((lsb ^ seq_num))")"
tm_out "$nonce"
return 0
}
# Return:
# 0 if arg1 contains the entire server response.
# 1 if arg1 does not contain the entire server response.
# 2 if the response is malformed.
# 3 if (a) the response version is TLSv1.3;
# (b) arg1 contains the entire ServerHello (and appears to contain the entire response);
# (c) the entire response is supposed to be parsed; and
# (d) the key and IV have not been provided to decrypt the response.
# arg1: ASCII-HEX encoded reply
# arg2: whether to process the full request ("all") or just the basic request plus the ephemeral key if any ("ephemeralkey").
# arg3: TLS cipher for decrypting TLSv1.3 response
# arg4: handshake secret
# arg5: message transcript (up through ServerHello)
check_tls_serverhellodone() {
local tls_hello_ascii="$1"
local process_full="$2"
local cipher="$3"
local handshake_secret="$4"
local msg_transcript="$5"
local tls_handshake_ascii="" tls_alert_ascii=""
local -i i tls_hello_ascii_len tls_handshake_ascii_len tls_alert_ascii_len
local -i msg_len remaining tls_serverhello_ascii_len sid_len
local -i j offset tls_extensions_len extension_len
local tls_content_type tls_protocol tls_msg_type extension_type
local tls_err_level
local hash_fn handshake_traffic_keys key="" iv="" finished_key=""
local -i seq_num=0 plaintext_len
local plaintext decrypted_response="" additional_data
local include_headers=true
DETECTED_TLS_VERSION=""
if [[ -n "$handshake_secret" ]]; then
handshake_traffic_keys="$(derive-handshake-traffic-keys "$cipher" "$handshake_secret" "$msg_transcript" "server")"
read -r key iv finished_key <<< "$handshake_traffic_keys"
fi
if [[ -z "$tls_hello_ascii" ]]; then
return 0 # no server hello received
fi
tls_hello_ascii_len=${#tls_hello_ascii}
for (( i=0; i<tls_hello_ascii_len; i+=msg_len )); do
remaining=$tls_hello_ascii_len-$i
[[ $remaining -lt 10 ]] && return 1
tls_content_type="${tls_hello_ascii:i:2}"
case "$tls_content_type" in
14|15|16|17) ;;
*) return 2 ;;
esac
i+=2
tls_protocol="${tls_hello_ascii:i:4}"
[[ -z "$DETECTED_TLS_VERSION" ]] && DETECTED_TLS_VERSION="$tls_protocol"
[[ "${tls_protocol:0:2}" != 03 ]] && return 2
i+=4
additional_data="$tls_content_type$tls_protocol${tls_hello_ascii:i:4}"
msg_len=2*$(hex2dec "${tls_hello_ascii:i:4}")
i+=4
remaining=$tls_hello_ascii_len-$i
[[ $msg_len -gt $remaining ]] && return 1
if [[ "$tls_content_type" == 16 ]]; then
tls_handshake_ascii+="${tls_hello_ascii:i:msg_len}"
tls_handshake_ascii_len=${#tls_handshake_ascii}
decrypted_response+="$tls_content_type$tls_protocol$(printf "%04X" $((msg_len/2)))${tls_hello_ascii:i:msg_len}"
# the ServerHello MUST be the first handshake message
[[ $tls_handshake_ascii_len -ge 2 ]] && [[ "${tls_handshake_ascii:0:2}" != 02 ]] && return 2
if [[ $tls_handshake_ascii_len -ge 12 ]]; then
DETECTED_TLS_VERSION="${tls_handshake_ascii:8:4}"
# In TLSv1.3 (starting with draft 22), the version field specifies TLSv1.2, but
# there is a supported_versions extension that specifies the actual version. So,
# if the version field specifies TLSv1.2, then check to see if there is a
# supported_versions extension.
if [[ "$DETECTED_TLS_VERSION" == 0303 ]]; then
tls_serverhello_ascii_len=2*$(hex2dec "${tls_handshake_ascii:2:6}")
sid_len=2*$(hex2dec "${tls_handshake_ascii:76:2}")
if [[ $tls_serverhello_ascii_len -gt 76+$sid_len ]]; then
# ServerHello contains extensions, so check for supported_versions extension
offset=84+$sid_len
tls_extensions_len=2*$(hex2dec "${tls_handshake_ascii:offset:4}")
[[ $tls_extensions_len -ne $tls_serverhello_ascii_len-$sid_len-80 ]] && return 2
for (( j=0; j<tls_extensions_len; j+=8+extension_len )); do
[[ $tls_extensions_len-$j -lt 8 ]] && return 2
offset=88+$sid_len+$j
extension_type="${tls_handshake_ascii:offset:4}"
offset=92+$sid_len+$j
extension_len=2*$(hex2dec "${tls_handshake_ascii:offset:4}")
[[ $extension_len -gt $tls_extensions_len-$j-8 ]] && return 2
if [[ "$extension_type" == 002B ]]; then # supported_versions
[[ $extension_len -ne 4 ]] && return 2
offset=96+$sid_len+$j
DETECTED_TLS_VERSION="${tls_handshake_ascii:offset:4}"
fi
done
fi
fi
# A version of {0x7F, xx} represents an implementation of a draft version of TLS 1.3
if [[ "${DETECTED_TLS_VERSION:0:2}" == 7F ]]; then
[[ 0x${DETECTED_TLS_VERSION:2:2} -lt 25 ]] && include_headers=false
DETECTED_TLS_VERSION=0304
fi
if [[ 0x$DETECTED_TLS_VERSION -ge 0x0304 ]] && [[ "$process_full" == ephemeralkey ]]; then
tls_serverhello_ascii_len=2*$(hex2dec "${tls_handshake_ascii:2:6}")
if [[ $tls_handshake_ascii_len -ge $tls_serverhello_ascii_len+8 ]]; then
tm_out ""
return 0 # The entire ServerHello message has been received (and the rest isn't needed)
fi
fi
fi
elif [[ "$tls_content_type" == 15 ]]; then # TLS ALERT
tls_alert_ascii+="${tls_hello_ascii:i:msg_len}"
decrypted_response+="$tls_content_type$tls_protocol$(printf "%04X" $((msg_len/2)))${tls_hello_ascii:i:msg_len}"
elif [[ "$tls_content_type" == 17 ]] && [[ -n "$key" ]]; then # encrypted data
# The header information was added to additional data in TLSv1.3 draft 25.
"$include_headers" || additional_data=""
nonce="$(get-nonce "$iv" "$seq_num")"
[[ $? -ne 0 ]] && return 2
plaintext="$(sym-decrypt "$cipher" "$key" "$nonce" "${tls_hello_ascii:i:msg_len}" "$additional_data")"
[[ $? -ne 0 ]] && return 2
seq_num+=1
# Remove zeros from end of plaintext, if any
plaintext_len=${#plaintext}-2
while [[ "${plaintext:plaintext_len:2}" == 00 ]]; do
plaintext_len=$plaintext_len-2
done
tls_content_type="${plaintext:plaintext_len:2}"
decrypted_response+="${tls_content_type}0301$(printf "%04X" $((plaintext_len/2)))${plaintext:0:plaintext_len}"
case "$tls_content_type" in
15) tls_alert_ascii+="${plaintext:0:plaintext_len}" ;;
16) tls_handshake_ascii+="${plaintext:0:plaintext_len}" ;;
*) return 2 ;;
esac
fi
done
# If there is a fatal alert, then we are done.
tls_alert_ascii_len=${#tls_alert_ascii}
for (( i=0; i<tls_alert_ascii_len; i+=4 )); do
remaining=$tls_alert_ascii_len-$i
[[ $remaining -lt 4 ]] && return 1
tls_err_level=${tls_alert_ascii:i:2} # 1: warning, 2: fatal
[[ $tls_err_level == 02 ]] && DETECTED_TLS_VERSION="" && tm_out "" && return 0
done
# If there is a serverHelloDone or Finished, then we are done.
tls_handshake_ascii_len=${#tls_handshake_ascii}
for (( i=0; i<tls_handshake_ascii_len; i+=msg_len )); do
remaining=$tls_handshake_ascii_len-$i
[[ $remaining -lt 8 ]] && return 1
tls_msg_type="${tls_handshake_ascii:i:2}"
i+=2
msg_len=2*$(hex2dec "${tls_handshake_ascii:i:6}")
i+=6
remaining=$tls_handshake_ascii_len-$i
[[ $msg_len -gt $remaining ]] && return 1
# The ServerHello has already been added to $msg_transcript,
# but all other handshake messages need to be added.
if [[ -n "$key" ]] && [[ "$tls_msg_type" != 02 ]]; then
if [[ $DEBUG -ge 1 ]] && [[ "$tls_msg_type" == 14 ]]; then
# Check the Finished message
if [[ "$cipher" == *SHA256 ]]; then
hash_fn="-sha256"
[[ $msg_len -eq 64 ]] || return 2
elif [[ "$cipher" == *SHA384 ]]; then
hash_fn="-sha384"
[[ $msg_len -eq 96 ]] || return 2
else
return 2
fi
[[ "${tls_handshake_ascii:i:msg_len}" != $(hmac-transcript "$hash_fn" "$finished_key" "$msg_transcript") ]] && \
return 2
fi
msg_transcript+="$tls_msg_type${tls_handshake_ascii:$((i-6)):6}${tls_handshake_ascii:i:msg_len}"
fi
# For SSLv3 - TLS1.2 look for a ServerHelloDone message.
# For TLS 1.3 look for a Finished message.
[[ $tls_msg_type == 0E ]] && tm_out "" && return 0
[[ $tls_msg_type == 14 ]] && tm_out "$msg_transcript $decrypted_response" && return 0
done
# If the response is TLSv1.3 and the full response is to be processed, but the
# key and IV have not been provided to decrypt the response, then return 3 if
# the entire ServerHello has been received.
if [[ "$DETECTED_TLS_VERSION" == 0304 ]] && [[ "$process_full" =~ all ]] && \
[[ -z "$handshake_secret" ]] && [[ $tls_handshake_ascii_len -gt 0 ]]; then
return 3
fi
# If we haven't encountered a fatal alert or a server hello done,
# then there must be more data to retrieve.
return 1
}
# arg1: tls alert error/warning code
# returns: description
tls_alert() {
local tls_alert_text=""
case "$1" in
00) tls_alert_text="close notify" ;;
0A) tls_alert_text="unexpected message" ;;
14) tls_alert_text="bad record mac" ;;
15) tls_alert_text="decryption failed" ;;
16) tls_alert_text="record overflow" ;;
1E) tls_alert_text="decompression failure" ;;
28) tls_alert_text="handshake failure" ;;
29) tls_alert_text="no certificate RESERVED" ;;
2A) tls_alert_text="bad certificate" ;;
2B) tls_alert_text="unsupported certificate" ;;
2C) tls_alert_text="certificate revoked" ;;
2D) tls_alert_text="certificate expired" ;;
2E) tls_alert_text="certificate unknown" ;;
2F) tls_alert_text="illegal parameter" ;;
30) tls_alert_text="unknown ca" ;;
31) tls_alert_text="access denied" ;;
32) tls_alert_text="decode error" ;;
33) tls_alert_text="decrypt error" ;;
3C) tls_alert_text="export restriction RESERVED" ;;
46) tls_alert_text="protocol version" ;;
47) tls_alert_text="insufficient security" ;;
50) tls_alert_text="internal error" ;;
56) tls_alert_text="inappropriate fallback" ;;
5A) tls_alert_text="user canceled" ;;
64) tls_alert_text="no renegotiation" ;;
6D) tls_alert_text="missing extension" ;;
6E) tls_alert_text="unsupported extension" ;;
6F) tls_alert_text="certificate unobtainable" ;;
70) tls_alert_text="unrecognized name" ;;
71) tls_alert_text="bad certificate status response" ;;
72) tls_alert_text="bad certificate hash value" ;;
73) tls_alert_text="unknown psk identity" ;;
74) tls_alert_text="certificate required" ;;
78) tls_alert_text="no application protocol" ;;
*) tls_alert_text="$(hex2dec "$1")";;
esac
echo "$tls_alert_text"
return 0
}
# arg1: ASCII-HEX encoded reply
# arg2: (optional): "all" or "all+" - process full response (including Certificate and certificate_status handshake messages)
# "ephemeralkey" - extract the server's ephemeral key (if any)
# arg3: (optional): CIPHER_SUITES string (lowercase, and in the format output by code2network())
# If present, parse_tls_serverhello() will check that the cipher in the ServerHello appears in
# the CIPHER_SUITES string.
parse_tls_serverhello() {
local tls_hello_ascii="$1"
local process_full="$2"
local cipherlist="$3"
local tls_handshake_ascii="" tls_alert_ascii=""
local -i tls_hello_ascii_len tls_handshake_ascii_len tls_alert_ascii_len msg_len
local tls_serverhello_ascii="" tls_certificate_ascii=""
local tls_serverkeyexchange_ascii="" tls_certificate_status_ascii=""
local tls_encryptedextensions_ascii="" tls_revised_certificate_msg=""
local -i tls_serverhello_ascii_len=0 tls_certificate_ascii_len=0
local -i tls_serverkeyexchange_ascii_len=0 tls_certificate_status_ascii_len=0
local -i tls_encryptedextensions_ascii_len=0
local added_encrypted_extensions=false
local tls_alert_descrip tls_sid_len_hex issuerDN subjectDN CAissuerDN CAsubjectDN
local -i tls_sid_len offset extns_offset nr_certs=0
local tls_msg_type tls_content_type tls_protocol tls_protocol2 tls_hello_time
local tls_err_level tls_err_descr_no tls_cipher_suite rfc_cipher_suite tls_compression_method
local tls_extensions="" extension_type named_curve_str="" named_curve_oid
local cert_compression_method="" cert_compression_method_str=""
local -i i j extension_len extn_len tls_extensions_len ocsp_response_len=0 ocsp_response_list_len ocsp_resp_offset
local -i certificate_list_len certificate_len cipherlist_len
local -i curve_type named_curve
local -i dh_bits=0 msb mask
local hostcert_issuer=""
local len1 len2 len3 key_bitstring="" pem_certificate
local dh_p dh_param ephemeral_param rfc7919_param
local -i dh_p_len dh_param_len
local peering_signing_digest=0 peer_signature_type=0
DETECTED_TLS_VERSION=""
[[ $DEBUG -ge 1 ]] && echo > $TMPFILE
[[ "$DEBUG" -ge 5 ]] && echo $tls_hello_ascii # one line without any blanks
# Client messages, including handshake messages, are carried by the record layer.
# First, extract the handshake and alert messages.
# see https://en.wikipedia.org/wiki/Transport_Layer_Security#TLS_record
# byte 0: content type: 0x14=CCS, 0x15=TLS alert x16=Handshake, 0x17 Application, 0x18=HB
# byte 1+2: TLS version word, major is 03, minor 00=SSL3, 01=TLS1 02=TLS1.1 03=TLS 1.2
# byte 3+4: fragment length
# bytes 5...: message fragment
tls_hello_ascii_len=${#tls_hello_ascii}
if [[ $DEBUG -ge 3 ]] && [[ $tls_hello_ascii_len -gt 0 ]]; then
echo "TLS message fragments:"
fi
for (( i=0; i<tls_hello_ascii_len; i+=msg_len )); do
if [[ $tls_hello_ascii_len-$i -lt 10 ]]; then
if [[ "$process_full" =~ all ]]; then
# The entire server response should have been retrieved.
debugme tmln_warning "Malformed message."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
else
# This could just be a result of the server's response being
# split across two or more packets.
break
fi
fi
tls_content_type="${tls_hello_ascii:i:2}"
i+=2
tls_protocol="${tls_hello_ascii:i:4}"
i+=4
msg_len=2*$(hex2dec "${tls_hello_ascii:i:4}")
i+=4
if [[ $DEBUG -ge 3 ]]; then
echo " protocol (rec. layer): 0x$tls_protocol"
echo -n " tls_content_type: 0x$tls_content_type"
case $tls_content_type in
14) tmln_out " (change cipher spec)" ;;
15) tmln_out " (alert)" ;;
16) tmln_out " (handshake)" ;;
17) tmln_out " (application data)" ;;
*) tmln_out ;;
esac
echo " msg_len: $((msg_len/2))"
tmln_out
fi
if "$do_starttls" ; then
if [[ $tls_content_type == 35 ]] || [[ $tls_content_type == 34 ]]; then
# STARTTLS handshake failed and server replied plaintext with a 5xx or 4xx
[[ $DEBUG -ge 2 ]] && printf "%s\n" "400/500: $(hex2ascii "$tls_hello_ascii" 2>/dev/null)"
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 4
elif [[ "$tls_hello_ascii" =~ 6130303220 ]]; then
[[ $DEBUG -ge 2 ]] && printf "%s\n" "probably IMAP plaintext reply \"$(hex2ascii "${tls_hello_ascii:0:32}" 2>/dev/null)\""
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 3
fi
fi
if [[ $tls_content_type != 14 ]] && [[ $tls_content_type != 15 ]] && \
[[ $tls_content_type != 16 ]] && [[ $tls_content_type != 17 ]]; then
debugme tmln_warning "Content type other than alert, handshake, change cipher spec, or application data detected."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
elif [[ "${tls_protocol:0:2}" != 03 ]]; then
debugme tmln_warning "Protocol record_version.major is not 03."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
DETECTED_TLS_VERSION=$tls_protocol
if [[ $msg_len -gt $tls_hello_ascii_len-$i ]]; then
if [[ "$process_full" =~ all ]]; then
debugme tmln_warning "Malformed message."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 7
else
# This could just be a result of the server's response being split
# across two or more packets. Just grab the part that is available.
msg_len=$tls_hello_ascii_len-$i
fi
fi
case "$tls_content_type" in
15) tls_alert_ascii="$tls_alert_ascii${tls_hello_ascii:i:msg_len}" ;;
16) tls_handshake_ascii="$tls_handshake_ascii${tls_hello_ascii:i:msg_len}" ;;
esac
done
# Now check the alert messages.
tls_alert_ascii_len=${#tls_alert_ascii}
if [[ "$process_full" =~ all ]] && [[ $tls_alert_ascii_len%4 -ne 0 ]]; then
debugme tmln_warning "Malformed message."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
if [[ $tls_alert_ascii_len -gt 0 ]]; then
debugme echo "TLS alert messages:"
for (( i=0; i+3 < tls_alert_ascii_len; i+=4 )); do
tls_err_level=${tls_alert_ascii:i:2} # 1: warning, 2: fatal
j=$i+2
tls_err_descr_no=${tls_alert_ascii:j:2}
if [[ $DEBUG -ge 1 ]]; then
debugme tm_out " tls_err_descr_no: 0x${tls_err_descr_no} / = $(hex2dec ${tls_err_descr_no})"
tls_alert_descrip="$(tls_alert "$tls_err_descr_no")"
if [[ $DEBUG -ge 2 ]]; then
tmln_out " ($tls_alert_descrip)"
tm_out " tls_err_level: ${tls_err_level}"
fi
case $tls_err_level in
01) echo -n "warning " >> $TMPFILE
debugme tmln_out " (warning)" ;;
02) echo -n "fatal " >> $TMPFILE
debugme tmln_out " (fatal)" ;;
esac
echo "alert $tls_alert_descrip" >> $TMPFILE
echo "===============================================================================" >> $TMPFILE
fi
if [[ "$tls_err_level" != 01 ]] && [[ "$tls_err_level" != 02 ]]; then
debugme tmln_warning "Unexpected AlertLevel (0x$tls_err_level)."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
elif [[ "$tls_err_level" == 02 ]]; then
# Fatal alert
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
done
fi
# Now extract just the server hello, certificate, certificate status,
# and server key exchange handshake messages.
tls_handshake_ascii_len=${#tls_handshake_ascii}
if [[ $DEBUG -ge 3 ]] && [[ $tls_handshake_ascii_len -gt 0 ]]; then
echo "TLS handshake messages:"
fi
for (( i=0; i<tls_handshake_ascii_len; i+=msg_len )); do
if [[ $tls_handshake_ascii_len-$i -lt 8 ]]; then
if [[ "$process_full" =~ all ]]; then
# The entire server response should have been retrieved.
debugme tmln_warning "Malformed message."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
else
# This could just be a result of the server's response being
# split across two or more packets.
continue
fi
fi
tls_msg_type="${tls_handshake_ascii:i:2}"
i+=2
msg_len=2*$(hex2dec "${tls_handshake_ascii:i:6}")
i+=6
if [[ $DEBUG -ge 3 ]]; then
tm_out " handshake type: 0x${tls_msg_type}"
case $tls_msg_type in
00) tmln_out " (hello_request)" ;;
01) tmln_out " (client_hello)" ;;
02) tmln_out " (server_hello)" ;;
03) tmln_out " (hello_verify_request)" ;;
04) tmln_out " (new_session_ticket)" ;;
05) tmln_out " (end_of_early_data)" ;;
06) tmln_out " (hello_retry_request)" ;;
08) tmln_out " (encrypted_extensions)" ;;
0B) tmln_out " (certificate)" ;;
0C) tmln_out " (server_key_exchange)" ;;
0D) tmln_out " (certificate_request)" ;;
0E) tmln_out " (server_hello_done)" ;;
0F) tmln_out " (certificate_verify)" ;;
10) tmln_out " (client_key_exchange)" ;;
14) tmln_out " (finished)" ;;
15) tmln_out " (certificate_url)" ;;
16) tmln_out " (certificate_status)" ;;
17) tmln_out " (supplemental_data)" ;;
18) tmln_out " (key_update)" ;;
19) tmln_out " (compressed_certificate)" ;;
FE) tmln_out " (message_hash)" ;;
*) tmln_out ;;
esac
echo " msg_len: $((msg_len/2))"
tmln_out
fi
if [[ $msg_len -gt $tls_handshake_ascii_len-$i ]]; then
if [[ "$process_full" =~ all ]]; then
debugme tmln_warning "Malformed message."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
else
# This could just be a result of the server's response being
# split across two or more packets. Just grab the part that
# is available.
msg_len=$tls_handshake_ascii_len-$i
fi
fi
if [[ "$tls_msg_type" == 02 ]]; then
if [[ -n "$tls_serverhello_ascii" ]]; then
debugme tmln_warning "Response contained more than one ServerHello handshake message."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
tls_serverhello_ascii="${tls_handshake_ascii:i:msg_len}"
tls_serverhello_ascii_len=$msg_len
elif [[ "$process_full" =~ all ]] && [[ "$tls_msg_type" == 08 ]]; then
# Add excrypted extensions (now decrypted) to end of extensions in SeverHello
tls_encryptedextensions_ascii="${tls_handshake_ascii:i:msg_len}"
tls_encryptedextensions_ascii_len=$msg_len
if [[ $msg_len -lt 2 ]]; then
debugme tmln_warning "Response contained a malformed encrypted extensions message"
return 1
fi
elif [[ "$process_full" =~ all ]] && [[ "$tls_msg_type" == 0B ]]; then
if [[ -n "$tls_certificate_ascii" ]]; then
debugme tmln_warning "Response contained more than one Certificate handshake message."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
tls_certificate_ascii="${tls_handshake_ascii:i:msg_len}"
tls_certificate_ascii_len=$msg_len
elif ( [[ "$process_full" =~ all ]] || [[ "$process_full" == ephemeralkey ]] ) && [[ "$tls_msg_type" == 0C ]]; then
if [[ -n "$tls_serverkeyexchange_ascii" ]]; then
debugme tmln_warning "Response contained more than one ServerKeyExchange handshake message."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
tls_serverkeyexchange_ascii="${tls_handshake_ascii:i:msg_len}"
tls_serverkeyexchange_ascii_len=$msg_len
elif [[ "$tls_msg_type" == 0F ]]; then
if [[ $msg_len -lt 4 ]]; then
debugme tmln_warning "Response contained malformed certificate_verify message."
return 1
fi
# Extract just the SignatureAndHashAlgorithm from the CertificateVerify message.
peering_signing_digest="${tls_handshake_ascii:i:2}"
peer_signature_type="${tls_handshake_ascii:$((i+2)):2}"
elif [[ "$process_full" =~ all ]] && [[ "$tls_msg_type" == 16 ]]; then
if [[ -n "$tls_certificate_status_ascii" ]]; then
debugme tmln_warning "Response contained more than one certificate_status handshake message."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
tls_certificate_status_ascii="${tls_handshake_ascii:i:msg_len}"
tls_certificate_status_ascii_len=$msg_len
elif [[ "$tls_msg_type" == 19 ]]; then
if [[ -n "$tls_certificate_ascii" ]]; then
debugme tmln_warning "Response contained more than one Certificate handshake message."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
cert_compression_method="${tls_handshake_ascii:i:4}"
case $cert_compression_method in
0001) cert_compression_method_str="ZLIB" ;;
0002) cert_compression_method_str="Brotli" ;;
0003) cert_compression_method_str="Zstandard" ;;
*) cert_compression_method_str="unrecognized" ;;
esac
if [[ $DEBUG -ge 3 ]]; then
tmln_out " Certificate Compression Algorithm: $cert_compression_method ($cert_compression_method_str)"
offset=$((i+4))
tmln_out " Uncompressed certificate length: $(printf "%d" 0x${tls_handshake_ascii:offset:6})"
tmln_out
fi
tls_extensions+="TLS server extension \"compress_certificate\" (id=27), len=0\n"
if [[ "$process_full" =~ all ]] && "$HAS_ZLIB" && [[ "${tls_handshake_ascii:i:4}" == 0001 ]]; then
offset=$((i+4))
tls_certificate_ascii_len=2*0x${tls_handshake_ascii:offset:6}
offset=$((i+16))
len1=$((msg_len-16))
tls_certificate_ascii="$(hex2binary "${tls_handshake_ascii:offset:len1}" | $OPENSSL zlib -d 2>/dev/null | hexdump -v -e '16/1 "%02X"')"
tls_certificate_ascii="${tls_certificate_ascii%%[!0-9A-F]*}"
if [[ ${#tls_certificate_ascii} -ne $tls_certificate_ascii_len ]]; then
debugme tmln_warning "Length of uncompressed certificates did not match specified length."
return 1
fi
fi
fi
done
if [[ $tls_serverhello_ascii_len -eq 0 ]]; then
debugme echo "server hello empty, TCP connection closed"
DETECTED_TLS_VERSION="closed TCP connection "
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1 # no server hello received
elif [[ $tls_serverhello_ascii_len -lt 76 ]]; then
DETECTED_TLS_VERSION="reply malformed"
debugme echo "Malformed response"
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
elif [[ "${tls_handshake_ascii:0:2}" != 02 ]]; then
# the ServerHello MUST be the first handshake message
DETECTED_TLS_VERSION="reply contained no ServerHello"
debugme tmln_warning "The first handshake protocol message is not a ServerHello."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
if [[ $DEBUG -eq 0 ]]; then
echo "CONNECTED(00000003)" > $TMPFILE
else
echo "CONNECTED(00000003)" >> $TMPFILE
fi
# First parse the server hello handshake message
# byte 0+1: 03, TLS version word see byte 1+2
# byte 2-5: TLS timestamp for OpenSSL <1.01f
# byte 6-33: random, 28 bytes
# byte 34: session id length
# byte 35+36+sid-len: cipher suite!
# byte 37+sid-len: compression method: 00: none, 01: deflate, 64: LZS
# byte 38+39+sid-len: extension length
tls_protocol2="${tls_serverhello_ascii:0:4}"
DETECTED_TLS_VERSION="$tls_protocol2"
[[ "${DETECTED_TLS_VERSION:0:2}" == 7F ]] && DETECTED_TLS_VERSION="0304"
if [[ "${DETECTED_TLS_VERSION:0:2}" != 03 ]]; then
debugme tmln_warning "server_version.major in ServerHello is not 03."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
if [[ "0x${DETECTED_TLS_VERSION:2:2}" -le "0x03" ]]; then
tls_hello_time="${tls_serverhello_ascii:4:8}"
[[ "$TLS_DIFFTIME_SET" || "$DEBUG" ]] && TLS_TIME=$(hex2dec "$tls_hello_time")
tls_sid_len_hex="${tls_serverhello_ascii:68:2}"
tls_sid_len=2*$(hex2dec "$tls_sid_len_hex")
offset=$((tls_sid_len+70))
if [[ $tls_serverhello_ascii_len -lt 76+$tls_sid_len ]]; then
debugme echo "Malformed response"
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
else
offset=68
fi
tls_cipher_suite="${tls_serverhello_ascii:offset:4}"
if [[ "0x${DETECTED_TLS_VERSION:2:2}" -le "0x03" ]]; then
offset=$((tls_sid_len+74))
tls_compression_method="${tls_serverhello_ascii:offset:2}"
extns_offset=$((tls_sid_len+76))
else
extns_offset=72
fi
if [[ $tls_serverhello_ascii_len -gt $extns_offset ]] && \
( [[ "$process_full" =~ all ]] || [[ "$DETECTED_TLS_VERSION" == 0303 ]] || \
( [[ "$process_full" == ephemeralkey ]] && [[ "0x${DETECTED_TLS_VERSION:2:2}" -gt "0x03" ]] ) ); then
if [[ $tls_serverhello_ascii_len -lt $extns_offset+4 ]]; then
debugme echo "Malformed response"
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
tls_extensions_len=$(hex2dec "${tls_serverhello_ascii:extns_offset:4}")*2
if [[ $tls_extensions_len -ne $tls_serverhello_ascii_len-$extns_offset-4 ]]; then
debugme tmln_warning "Malformed message."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
for (( i=0; i<tls_extensions_len; i+=8+extension_len )); do
if [[ $tls_extensions_len-$i -lt 8 ]]; then
debugme echo "Malformed response"
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
offset=$((extns_offset+i+4))
extension_type="${tls_serverhello_ascii:offset:4}"
offset=$((extns_offset+i+8))
extension_len=2*$(hex2dec "${tls_serverhello_ascii:offset:4}")
if [[ $extension_len -gt $tls_extensions_len-$i-8 ]]; then
debugme echo "Malformed response"
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
# https://www.iana.org/assignments/tls-extensiontype-values/tls-extensiontype-values.xhtml
case $extension_type in
0000) tls_extensions+="TLS server extension \"server name\" (id=0), len=$extension_len\n" ;;
0001) tls_extensions+="TLS server extension \"max fragment length\" (id=1), len=$extension_len\n" ;;
0002) tls_extensions+="TLS server extension \"client certificate URL\" (id=2), len=$extension_len\n" ;;
0003) tls_extensions+="TLS server extension \"trusted CA keys\" (id=3, len=$extension_len\n)" ;;
0004) tls_extensions+="TLS server extension \"truncated HMAC\" (id=4), len=$extension_len\n" ;;
0005) tls_extensions+="TLS server extension \"status request\" (id=5), len=$extension_len\n"
if [[ $extension_len -gt 0 ]] && [[ "$process_full" =~ all ]]; then
# In TLSv1.3 the status_request extension contains the CertificateStatus message, unlike
# TLSv1.2 and below where CertificateStatus appears in its own handshake message. So, if
# the status_request extension is not empty, extract the value and place it in
# $tls_certificate_status_ascii.
tls_certificate_status_ascii_len=$extension_len
offset=$((extns_offset+12+i))
tls_certificate_status_ascii="${tls_serverhello_ascii:offset:tls_certificate_status_ascii_len}"
fi
;;
0006) tls_extensions+="TLS server extension \"user mapping\" (id=6), len=$extension_len\n" ;;
0007) tls_extensions+="TLS server extension \"client authz\" (id=7), len=$extension_len\n" ;;
0008) tls_extensions+="TLS server extension \"server authz\" (id=8), len=$extension_len\n" ;;
0009) tls_extensions+="TLS server extension \"cert type\" (id=9), len=$extension_len\n" ;;
000A) tls_extensions+="TLS server extension \"supported_groups\" (id=10), len=$extension_len\n"
if [[ "$process_full" =~ all ]]; then
if [[ $extension_len -lt 4 ]]; then
debugme tmln_warning "Malformed supported groups extension."
return 1
fi
echo -n "Supported groups: " >> $TMPFILE
offset=$((extns_offset+12+i))
len1=2*$(hex2dec "${tls_serverhello_ascii:offset:4}")
if [[ $extension_len -lt $len1+4 ]] || [[ $len1 -lt 4 ]]; then
debugme tmln_warning "Malformed supported groups extension."
return 1
fi
offset=$((offset+4))
for (( j=0; j < len1; j+=4 )); do
[[ $j -ne 0 ]] && echo -n ", " >> $TMPFILE
case "${tls_serverhello_ascii:offset:4}" in
"0017") echo -n "secp256r1" >> $TMPFILE ;;
"0018") echo -n "secp384r1" >> $TMPFILE ;;
"0019") echo -n "secp521r1" >> $TMPFILE ;;
"001D") echo -n "X25519" >> $TMPFILE ;;
"001E") echo -n "X448" >> $TMPFILE ;;
"0100") echo -n "ffdhe2048" >> $TMPFILE ;;
"0101") echo -n "ffdhe3072" >> $TMPFILE ;;
"0102") echo -n "ffdhe4096" >> $TMPFILE ;;
"0103") echo -n "ffdhe6144" >> $TMPFILE ;;
"0104") echo -n "ffdhe8192" >> $TMPFILE ;;
*) echo -n "unknown (${tls_serverhello_ascii:offset:4})" >> $TMPFILE ;;
esac
offset=$((offset+4))
done
echo "" >> $TMPFILE
fi
;;
000B) tls_extensions+="TLS server extension \"EC point formats\" (id=11), len=$extension_len\n" ;;
000C) tls_extensions+="TLS server extension \"SRP\" (id=12), len=$extension_len\n" ;;
000D) tls_extensions+="TLS server extension \"signature algorithms\" (id=13), len=$extension_len\n" ;;
000E) tls_extensions+="TLS server extension \"use SRTP\" (id=14), len=$extension_len\n" ;;
000F) tls_extensions+="TLS server extension \"heartbeat\" (id=15), len=$extension_len\n" ;;
0010) tls_extensions+="TLS server extension \"application layer protocol negotiation\" (id=16), len=$extension_len\n"
if [[ "$process_full" =~ all ]]; then
if [[ $extension_len -lt 4 ]]; then
debugme echo "Malformed application layer protocol negotiation extension."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
echo -n "ALPN protocol: " >> $TMPFILE
offset=$((extns_offset+12+i))
j=2*$(hex2dec "${tls_serverhello_ascii:offset:4}")
if [[ $extension_len -ne $j+4 ]] || [[ $j -lt 2 ]]; then
debugme echo "Malformed application layer protocol negotiation extension."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
offset=$((offset+4))
j=2*$(hex2dec "${tls_serverhello_ascii:offset:2}")
if [[ $extension_len -ne $j+6 ]]; then
debugme echo "Malformed application layer protocol negotiation extension."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
offset=$((offset+2))
hex2binary "${tls_serverhello_ascii:offset:j}" >> "$TMPFILE"
echo "" >> $TMPFILE
echo "===============================================================================" >> $TMPFILE
fi
;;
0011) tls_extensions+="TLS server extension \"certificate status version 2\" (id=17), len=$extension_len\n" ;;
0012) tls_extensions+="TLS server extension \"signed certificate timestamps\" (id=18), len=$extension_len\n" ;;
0013) tls_extensions+="TLS server extension \"client certificate type\" (id=19), len=$extension_len\n" ;;
0014) tls_extensions+="TLS server extension \"server certificate type\" (id=20), len=$extension_len\n" ;;
0015) tls_extensions+="TLS server extension \"TLS padding\" (id=21), len=$extension_len\n" ;;
0016) tls_extensions+="TLS server extension \"encrypt-then-mac\" (id=22), len=$extension_len\n" ;;
0017) tls_extensions+="TLS server extension \"extended master secret\" (id=23), len=$extension_len\n" ;;
0018) tls_extensions+="TLS server extension \"token binding\" (id=24), len=$extension_len\n" ;;
0019) tls_extensions+="TLS server extension \"cached info\" (id=25), len=$extension_len\n" ;;
0023) tls_extensions+="TLS server extension \"session ticket\" (id=35), len=$extension_len\n" ;;
0028|0033)
# The key share extension was renumbered from 40 to 51 in TLSv1.3 draft 23 since a few
# implementations have been using 40 for the extended_random extension. Since the
# server's version may not yet have been determined, assume that both values represent the
# key share extension.
if [[ "$extension_type" == "00$KEY_SHARE_EXTN_NR" ]]; then
tls_extensions+="TLS server extension \"key share\""
else
tls_extensions+="TLS server extension \"unrecognized extension\""
fi
if [[ "$extension_type" == 0028 ]]; then
tls_extensions+=" (id=40), len=$extension_len\n"
else
tls_extensions+=" (id=51), len=$extension_len\n"
fi
if [[ "$process_full" =~ all ]] || [[ "$process_full" == ephemeralkey ]]; then
if [[ $extension_len -lt 4 ]]; then
debugme tmln_warning "Malformed key share extension."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
offset=$((extns_offset+12+i))
named_curve=$(hex2dec "${tls_serverhello_ascii:offset:4}")
offset=$((extns_offset+16+i))
msg_len=2*"$(hex2dec "${tls_serverhello_ascii:offset:4}")"
if [[ $msg_len -ne $extension_len-8 ]]; then
debugme tmln_warning "Malformed key share extension."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
case $named_curve in
21) dh_bits=224 ; named_curve_str="P-224" ; named_curve_oid="06052b81040021" ;;
23) dh_bits=256 ; named_curve_str="P-256" ; named_curve_oid="06082a8648ce3d030107" ;;
24) dh_bits=384 ; named_curve_str="P-384" ; named_curve_oid="06052b81040022" ;;
25) dh_bits=521 ; named_curve_str="P-521" ; named_curve_oid="06052b81040023" ;;
29) dh_bits=253 ; named_curve_str="X25519" ;;
30) dh_bits=448 ; named_curve_str="X448" ;;
256) dh_bits=2048 ; named_curve_str="ffdhe2048" ;;
257) dh_bits=3072 ; named_curve_str="ffdhe3072" ;;
258) dh_bits=4096 ; named_curve_str="ffdhe4096" ;;
259) dh_bits=6144 ; named_curve_str="ffdhe6144" ;;
260) dh_bits=8192 ; named_curve_str="ffdhe8192" ;;
*) named_curve_str="" ; named_curve_oid="" ;;
esac
offset=$((extns_offset+20+i))
if ! "$HAS_PKEY"; then
# The key can't be extracted without the pkey utility.
key_bitstring=""
elif [[ $named_curve -eq 29 ]]; then
key_bitstring="302a300506032b656e032100${tls_serverhello_ascii:offset:msg_len}"
elif [[ $named_curve -eq 30 ]]; then
key_bitstring="3042300506032b656f033900${tls_serverhello_ascii:offset:msg_len}"
elif [[ $named_curve -lt 256 ]] && [[ -n "$named_curve_oid" ]]; then
len1="$(printf "%02x" $((msg_len/2+1)))"
[[ "0x${len1}" -ge "0x80" ]] && len1="81${len1}"
key_bitstring="03${len1}00${tls_serverhello_ascii:offset:msg_len}"
len2="$(printf "%02x" $((${#named_curve_oid}/2+9)))"
len3="$(printf "%02x" $((${#named_curve_oid}/2+${#key_bitstring}/2+11)))"
[[ "0x${len3}" -ge "0x80" ]] && len3="81${len3}"
key_bitstring="30${len3}30${len2}06072a8648ce3d0201${named_curve_oid}${key_bitstring}"
elif [[ "$named_curve_str" =~ "ffdhe" ]] && [[ "${TLS13_KEY_SHARES[named_curve]}" =~ "BEGIN" ]]; then
dh_param="$($OPENSSL pkey -pubout -outform DER 2>>$ERRFILE <<< "${TLS13_KEY_SHARES[named_curve]}" | hexdump -v -e '16/1 "%02X"')"
# First is the length of the public-key SEQUENCE, and it is always encoded in four bytes (3082xxxx)
# Next is the length of the parameters SEQUENCE, and it is also always encoded in four bytes (3082xxxx)
dh_param_len=8+2*"$(hex2dec "${dh_param:12:4}")"
dh_param="${dh_param:8:dh_param_len}"
if [[ "0x${tls_serverhello_ascii:offset:2}" -ge 0x80 ]]; then
key_bitstring="00${tls_serverhello_ascii:offset:msg_len}"
msg_len+=2
else
key_bitstring="${tls_serverhello_ascii:offset:msg_len}"
fi
len1="$(printf "%04x" $((msg_len/2)))"
key_bitstring="0282${len1}$key_bitstring"
len1="$(printf "%04x" $((${#key_bitstring}/2+1)))"
key_bitstring="${dh_param}0382${len1}00$key_bitstring"
len1="$(printf "%04x" $((${#key_bitstring}/2)))"
key_bitstring="3082${len1}$key_bitstring"
fi
if [[ -n "$key_bitstring" ]]; then
key_bitstring="$(hex2binary "$key_bitstring" | $OPENSSL pkey -pubin -inform DER 2>$ERRFILE)"
if [[ -z "$key_bitstring" ]] && [[ $DEBUG -ge 2 ]]; then
if [[ -n "$named_curve_str" ]]; then
prln_warning "Your $OPENSSL doesn't support $named_curve_str"
else
prln_warning "Your $OPENSSL doesn't support named curve $named_curve"
fi
fi
fi
fi
;;
0029) tls_extensions+="TLS server extension \"pre-shared key\" (id=41), len=$extension_len\n" ;;
002A) tls_extensions+="TLS server extension \"early data\" (id=42), len=$extension_len\n" ;;
002B) tls_extensions+="TLS server extension \"supported versions\" (id=43), len=$extension_len\n"
if [[ $extension_len -ne 4 ]]; then
debugme tmln_warning "Malformed supported versions extension."
return 1
fi
offset=$((extns_offset+12+i))
tls_protocol2="${tls_serverhello_ascii:offset:4}"
DETECTED_TLS_VERSION="$tls_protocol2"
[[ "${DETECTED_TLS_VERSION:0:2}" == 7F ]] && DETECTED_TLS_VERSION="0304"
;;
002C) tls_extensions+="TLS server extension \"cookie\" (id=44), len=$extension_len\n" ;;
002D) tls_extensions+="TLS server extension \"psk key exchange modes\" (id=45), len=$extension_len\n" ;;
002E) tls_extensions+="TLS server extension \"ticket early data info\" (id=46), len=$extension_len\n" ;;
002F) tls_extensions+="TLS server extension \"certificate authorities\" (id=47), len=$extension_len\n" ;;
0030) tls_extensions+="TLS server extension \"oid filters\" (id=48), len=$extension_len\n" ;;
0031) tls_extensions+="TLS server extension \"post handshake auth\" (id=49), len=$extension_len\n" ;;
3374) tls_extensions+="TLS server extension \"next protocol\" (id=13172), len=$extension_len\n"
if [[ "$process_full" =~ all ]]; then
local -i protocol_len
echo -n "Protocols advertised by server: " >> $TMPFILE
offset=$((extns_offset+12+i))
for (( j=0; j<extension_len; j+=protocol_len+2 )); do
if [[ $extension_len -lt $j+2 ]]; then
debugme echo "Malformed next protocol extension."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
protocol_len=2*$(hex2dec "${tls_serverhello_ascii:offset:2}")
if [[ $extension_len -lt $j+$protocol_len+2 ]]; then
debugme echo "Malformed next protocol extension."
[[ $DEBUG -ge 1 ]] && tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
offset=$((offset+2))
hex2binary "${tls_serverhello_ascii:offset:protocol_len}" >> "$TMPFILE"
offset=$((offset+protocol_len))
[[ $j+$protocol_len+2 -lt $extension_len ]] && echo -n ", " >> $TMPFILE
done
echo "" >> $TMPFILE
echo "===============================================================================" >> $TMPFILE
fi
;;
FF01) tls_extensions+="TLS server extension \"renegotiation info\" (id=65281), len=$extension_len\n" ;;
*) tls_extensions+="TLS server extension \"unrecognized extension\" (id=$(printf "%d\n\n" "0x$extension_type")), len=$extension_len\n" ;;
esac
# After processing all of the extensions in the ServerHello message,
# if it has been determined that the response is TLSv1.3 and the
# response was decrypted, then modify $tls_serverhello_ascii by adding
# the extensions from the EncryptedExtensions and Certificate messages
# and then process them.
if ! "$added_encrypted_extensions" && [[ "$DETECTED_TLS_VERSION" == "0304" ]] && \
[[ $((i+8+extension_len)) -eq $tls_extensions_len ]]; then
# Note that the encrypted extensions have been added so that
# the aren't added a second time.
added_encrypted_extensions=true
if [[ -n "$tls_encryptedextensions_ascii" ]]; then
tls_serverhello_ascii_len+=$tls_encryptedextensions_ascii_len-4
tls_extensions_len+=$tls_encryptedextensions_ascii_len-4
tls_encryptedextensions_ascii_len=$tls_encryptedextensions_ascii_len/2-2
offset=$((extns_offset+4))
tls_serverhello_ascii="${tls_serverhello_ascii:0:extns_offset}$(printf "%04X" $((0x${tls_serverhello_ascii:extns_offset:4}+$tls_encryptedextensions_ascii_len)))${tls_serverhello_ascii:offset}${tls_encryptedextensions_ascii:4}"
fi
if [[ -n "$tls_certificate_ascii" ]]; then
# In TLS 1.3, the Certificate message begins with a zero length certificate_request_context.
# In addition, certificate_list is now a list of (certificate, extension) pairs rather than
# just certificates. So, extract the extensions and add them to $tls_serverhello_ascii and
# create a new $tls_certificate_ascii that only contains a list of certificates.
if [[ -n "$tls_certificate_ascii" ]]; then
if [[ "${tls_certificate_ascii:0:2}" != "00" ]]; then
debugme tmln_warning "Malformed Certificate Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
if [[ $tls_certificate_ascii_len -lt 8 ]]; then
debugme tmln_warning "Malformed Certificate Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
certificate_list_len=2*$(hex2dec "${tls_certificate_ascii:2:6}")
if [[ $certificate_list_len -ne $tls_certificate_ascii_len-8 ]]; then
debugme tmln_warning "Malformed Certificate Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
for (( j=8; j < tls_certificate_ascii_len; j+=extn_len )); do
if [[ $tls_certificate_ascii_len-$j -lt 6 ]]; then
debugme tmln_warning "Malformed Certificate Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
certificate_len=2*$(hex2dec "${tls_certificate_ascii:j:6}")
if [[ $certificate_len -gt $tls_certificate_ascii_len-$j-6 ]]; then
debugme tmln_warning "Malformed Certificate Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
len1=$certificate_len+6
tls_revised_certificate_msg+="${tls_certificate_ascii:j:len1}"
j+=$len1
extn_len=2*$(hex2dec "${tls_certificate_ascii:j:4}")
j+=4
# TODO: Should only the extensions associated with the EE certificate be added to $tls_serverhello_ascii?
tls_serverhello_ascii_len+=$extn_len
tls_extensions_len+=$extn_len
offset=$((extns_offset+4))
tls_serverhello_ascii="${tls_serverhello_ascii:0:extns_offset}$(printf "%04X" $(( 0x${tls_serverhello_ascii:extns_offset:4}+extn_len/2)) )${tls_serverhello_ascii:offset}${tls_certificate_ascii:j:extn_len}"
done
tls_certificate_ascii_len=${#tls_revised_certificate_msg}+6
tls_certificate_ascii="$(printf "%06X" $(( tls_certificate_ascii_len/2-3)) )$tls_revised_certificate_msg"
fi
fi
fi
done
fi
if [[ "$DETECTED_TLS_VERSION" == "0300" ]]; then
echo "Protocol : SSLv3" >> $TMPFILE
else
echo "Protocol : TLSv1.$((0x$DETECTED_TLS_VERSION-0x0301))" >> $TMPFILE
fi
echo "===============================================================================" >> $TMPFILE
if [[ $TLS_NR_CIPHERS -ne 0 ]]; then
if [[ "${tls_cipher_suite:0:2}" == "00" ]]; then
rfc_cipher_suite="$(show_rfc_style "x${tls_cipher_suite:2:2}")"
else
rfc_cipher_suite="$(show_rfc_style "x${tls_cipher_suite:0:4}")"
fi
elif "$HAS_CIPHERSUITES"; then
rfc_cipher_suite="$($OPENSSL ciphers -V -ciphersuites "$TLS13_OSSL_CIPHERS" 'ALL:COMPLEMENTOFALL' | grep -i " 0x${tls_cipher_suite:0:2},0x${tls_cipher_suite:2:2} " | awk '{ print $3 }')"
else
rfc_cipher_suite="$($OPENSSL ciphers -V 'ALL:COMPLEMENTOFALL' | grep -i " 0x${tls_cipher_suite:0:2},0x${tls_cipher_suite:2:2} " | awk '{ print $3 }')"
fi
echo "Cipher : $rfc_cipher_suite" >> $TMPFILE
if [[ $dh_bits -ne 0 ]]; then
if [[ "$named_curve_str" =~ "ffdhe" ]]; then
echo "Server Temp Key: DH, $named_curve_str, $dh_bits bits" >> $TMPFILE
elif [[ "$named_curve_str" == "X25519" ]] || [[ "$named_curve_str" == "X448" ]]; then
echo "Server Temp Key: $named_curve_str, $dh_bits bits" >> $TMPFILE
else
echo "Server Temp Key: ECDH, $named_curve_str, $dh_bits bits" >> $TMPFILE
fi
fi
if [[ -n "$key_bitstring" ]]; then
echo "$key_bitstring" >> $TMPFILE
[[ "${TLS13_KEY_SHARES[named_curve]}" =~ "BEGIN" ]] && \
echo "${TLS13_KEY_SHARES[named_curve]}" >> $TMPFILE
fi
echo "===============================================================================" >> $TMPFILE
if [[ "0x${DETECTED_TLS_VERSION:2:2}" -le "0x03" ]]; then
case $tls_compression_method in
00) echo "Compression: NONE" >> $TMPFILE ;;
01) echo "Compression: zlib compression" >> $TMPFILE ;;
40) echo "Compression: LZS compression" >> $TMPFILE ;;
*) echo "Compression: unrecognized compression method" >> $TMPFILE ;;
esac
echo "===============================================================================" >> $TMPFILE
fi
if [[ -n "$cert_compression_method" ]]; then
echo "Certificate Compression Algorithm: $cert_compression_method ($cert_compression_method_str)" >> $TMPFILE
fi
[[ -n "$tls_extensions" ]] && echo -e "$tls_extensions" >> $TMPFILE
if [[ $DEBUG -ge 3 ]]; then
echo "TLS server hello message:"
if [[ $DEBUG -ge 4 ]]; then
echo " tls_protocol: 0x$tls_protocol2"
[[ "0x${DETECTED_TLS_VERSION:2:2}" -le "0x03" ]] && echo " tls_sid_len: 0x$tls_sid_len_hex / = $((tls_sid_len/2))"
fi
if [[ "0x${DETECTED_TLS_VERSION:2:2}" -le "0x03" ]]; then
echo -n " tls_hello_time: 0x$tls_hello_time "
parse_date "$TLS_TIME" "+%Y-%m-%d %r" "%s" # in debugging mode we don't mind the cycles and don't use TLS_DIFFTIME_SET
fi
echo -n " tls_cipher_suite: 0x$tls_cipher_suite"
if [[ -n "$rfc_cipher_suite" ]]; then
echo " ($rfc_cipher_suite)"
else
echo ""
fi
if [[ $dh_bits -ne 0 ]]; then
if [[ "$named_curve_str" =~ "ffdhe" ]]; then
echo " dh_bits: DH, $named_curve_str, $dh_bits bits"
elif [[ "$named_curve_str" == "X25519" ]] || [[ "$named_curve_str" == "X448" ]]; then
echo " dh_bits: $named_curve_str, $dh_bits bits"
else
echo " dh_bits: ECDH, $named_curve_str, $dh_bits bits"
fi
fi
if [[ "0x${DETECTED_TLS_VERSION:2:2}" -le "0x03" ]]; then
echo -n " tls_compression_method: 0x$tls_compression_method "
case $tls_compression_method in
00) echo "(NONE)" ;;
01) echo "(zlib compression)" ;;
40) echo "(LZS compression)" ;;
*) echo "(unrecognized compression method)" ;;
esac
fi
if [[ -n "$tls_extensions" ]]; then
echo -n " tls_extensions: "
newline_to_spaces "$(grep -a 'TLS server extension ' $TMPFILE | \
sed -e 's/TLS server extension //g' -e 's/\" (id=/\/#/g' \
-e 's/,.*$/,/g' -e 's/),$/\"/g' \
-e 's/elliptic curves\/#10/supported_groups\/#10/g')"
echo ""
if [[ "$tls_extensions" =~ supported_groups ]]; then
echo " Supported Groups: $(grep "Supported groups:" "$TMPFILE" | sed 's/Supported groups: //')"
fi
if [[ "$tls_extensions" =~ application\ layer\ protocol\ negotiation ]]; then
echo " ALPN protocol: $(grep "ALPN protocol:" "$TMPFILE" | sed 's/ALPN protocol: //')"
fi
if [[ "$tls_extensions" =~ next\ protocol ]]; then
echo " NPN protocols: $(grep "Protocols advertised by server:" "$TMPFILE" | sed 's/Protocols advertised by server: //')"
fi
fi
tmln_out
fi
# If a CIPHER_SUITES string was provided, then check that $tls_cipher_suite is in the string.
# this appeared in yassl + MySQL (https://github.com/drwetter/testssl.sh/pull/784) but adds robustness
# to the implementation
if [[ -n "$cipherlist" ]]; then
tls_cipher_suite="$(tolower "$tls_cipher_suite")"
tls_cipher_suite="${tls_cipher_suite:0:2}\\x${tls_cipher_suite:2:2}"
cipherlist_len=${#cipherlist}
for (( i=0; i < cipherlist_len; i+=8 )); do
# At the right hand side we need the quotes here!
[[ "${cipherlist:i:6}" == "$tls_cipher_suite" ]] && break
done
if [[ $i -ge $cipherlist_len ]]; then
BAD_SERVER_HELLO_CIPHER=true
debugme echo "The ServerHello specifies a cipher suite that wasn't included in the ClientHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
fi
# If the ClientHello included a supported_versions extension, then check that the
# $DETECTED_TLS_VERSION appeared in the list offered in the ClientHello.
if [[ "${TLS_CLIENT_HELLO:0:2}" == 01 ]]; then
# get position of cipher lists (just after session id)
offset=78+2*$(hex2dec "${TLS_CLIENT_HELLO:76:2}")
# get position of compression methods
offset+=4+2*$(hex2dec "${TLS_CLIENT_HELLO:offset:4}")
# get position of extensions
extns_offset=$offset+6+2*$(hex2dec "${TLS_CLIENT_HELLO:offset:2}")
len1=${#TLS_CLIENT_HELLO}
for (( i=extns_offset; i < len1; i+=8+extension_len )); do
extension_type="${TLS_CLIENT_HELLO:i:4}"
offset=4+$i
extension_len=2*$(hex2dec "${TLS_CLIENT_HELLO:offset:4}")
if [[ "$extension_type" == 002b ]]; then
offset+=6
tls_protocol2="$(tolower "$tls_protocol2")"
for (( j=0; j < extension_len-2; j+=4 )); do
[[ "${TLS_CLIENT_HELLO:offset:4}" == $tls_protocol2 ]] && break
offset+=4
done
if [[ $j -eq $extension_len-2 ]]; then
debugme echo "The ServerHello specifies a version that wasn't offered in the ClientHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
break
fi
done
fi
# Now parse the Certificate message.
if [[ "$process_full" =~ all ]]; then
# not sure why we need this
[[ -e "$HOSTCERT" ]] && rm "$HOSTCERT"
[[ -e "$TEMPDIR/intermediatecerts.pem" ]] && > "$TEMPDIR/intermediatecerts.pem"
fi
if [[ $tls_certificate_ascii_len -ne 0 ]]; then
# The first certificate is the server's certificate. If there are anything
# subsequent certificates, they are intermediate certificates.
if [[ $tls_certificate_ascii_len -lt 12 ]]; then
debugme echo "Malformed Certificate Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
certificate_list_len=2*$(hex2dec "${tls_certificate_ascii:0:6}")
if [[ $certificate_list_len -ne $tls_certificate_ascii_len-6 ]]; then
debugme echo "Malformed Certificate Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
# Place server's certificate in $HOSTCERT
certificate_len=2*$(hex2dec "${tls_certificate_ascii:6:6}")
if [[ $certificate_len -gt $tls_certificate_ascii_len-12 ]]; then
debugme echo "Malformed Certificate Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
hex2binary "${tls_certificate_ascii:12:certificate_len}" | \
$OPENSSL x509 -inform DER -outform PEM -out "$HOSTCERT" 2>$ERRFILE
if [[ $? -ne 0 ]]; then
debugme echo "Malformed certificate in Certificate Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
get_pub_key_size
echo "===============================================================================" >> $TMPFILE
echo "---" >> $TMPFILE
echo "Certificate chain" >> $TMPFILE
subjectDN="$($OPENSSL x509 -in $HOSTCERT -noout -subject 2>>$ERRFILE)"
issuerDN="$($OPENSSL x509 -in $HOSTCERT -noout -issuer 2>>$ERRFILE)"
echo " $nr_certs s:${subjectDN:9}" >> $TMPFILE
echo " i:${issuerDN:8}" >> $TMPFILE
cat "$HOSTCERT" >> $TMPFILE
echo "" > "$TEMPDIR/intermediatecerts.pem"
# Place any additional certificates in $TEMPDIR/intermediatecerts.pem
CERTIFICATE_LIST_ORDERING_PROBLEM=false
CAissuerDN="$issuerDN"
for (( i=12+certificate_len; i<tls_certificate_ascii_len; i+=certificate_len )); do
if [[ $tls_certificate_ascii_len-$i -lt 6 ]]; then
debugme echo "Malformed Certificate Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
certificate_len=2*$(hex2dec "${tls_certificate_ascii:i:6}")
i+=6
if [[ $certificate_len -gt $tls_certificate_ascii_len-$i ]]; then
debugme echo "Malformed certificate in Certificate Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
pem_certificate="$(hex2binary "${tls_certificate_ascii:i:certificate_len}" | \
$OPENSSL x509 -inform DER -outform PEM 2>$ERRFILE)"
if [[ $? -ne 0 ]]; then
debugme echo "Malformed certificate in Certificate Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
nr_certs+=1
CAsubjectDN="$($OPENSSL x509 -noout -subject 2>>$ERRFILE <<< "$pem_certificate")"
# Check that this certificate certifies the one immediately preceding it.
[[ "${CAsubjectDN:9}" != "${CAissuerDN:8}" ]] && CERTIFICATE_LIST_ORDERING_PROBLEM=true
CAissuerDN="$($OPENSSL x509 -noout -issuer 2>>$ERRFILE <<< "$pem_certificate")"
echo " $nr_certs s:${CAsubjectDN:9}" >> $TMPFILE
echo " i:${CAissuerDN:8}" >> $TMPFILE
echo "$pem_certificate" >> $TMPFILE
echo "$pem_certificate" >> "$TEMPDIR/intermediatecerts.pem"
if [[ -z "$hostcert_issuer" ]] && [[ "${CAsubjectDN:9}" == "${issuerDN:8}" ]]; then
# The issuer's certificate is needed if there is a stapled OCSP response,
# and it may be needed if check_revocation_ocsp() will later be called
# with the OCSP URI in the server's certificate.
hostcert_issuer="$TEMPDIR/hostcert_issuer.pem"
echo "$pem_certificate" > "$hostcert_issuer"
fi
done
echo "---" >> $TMPFILE
echo "Server certificate" >> $TMPFILE
echo "subject=${subjectDN:9}" >> $TMPFILE
echo "issuer=${issuerDN:8}" >> $TMPFILE
echo "---" >> $TMPFILE
fi
# Now parse the certificate status message
if [[ $tls_certificate_status_ascii_len -ne 0 ]] && [[ $tls_certificate_status_ascii_len -lt 8 ]]; then
debugme echo "Malformed certificate status Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
elif [[ $tls_certificate_status_ascii_len -ne 0 ]] && [[ "${tls_certificate_status_ascii:0:2}" == "01" ]]; then
# This is a certificate status message of type "ocsp"
ocsp_response_len=2*$(hex2dec "${tls_certificate_status_ascii:2:6}")
if [[ $ocsp_response_len -ne $tls_certificate_status_ascii_len-8 ]]; then
debugme echo "Malformed certificate status Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
ocsp_resp_offset=8
elif [[ $tls_certificate_status_ascii_len -ne 0 ]] && [[ "${tls_certificate_status_ascii:0:2}" == "02" ]]; then
# This is a list of OCSP responses, but only the first one is needed
# since the first one corresponds to the server's certificate.
ocsp_response_list_len=2*$(hex2dec "${tls_certificate_status_ascii:2:6}")
if [[ $ocsp_response_list_len -ne $tls_certificate_status_ascii_len-8 ]] || [[ $ocsp_response_list_len -lt 6 ]]; then
debugme echo "Malformed certificate status Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
ocsp_response_len=2*$(hex2dec "${tls_certificate_status_ascii:8:6}")
if [[ $ocsp_response_len -gt $ocsp_response_list_len-6 ]]; then
debugme echo "Malformed certificate status Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
ocsp_resp_offset=14
fi
STAPLED_OCSP_RESPONSE=""
if [[ $ocsp_response_len -ne 0 ]]; then
STAPLED_OCSP_RESPONSE="${tls_certificate_status_ascii:ocsp_resp_offset:ocsp_response_len}"
echo "OCSP response:" >> $TMPFILE
echo "===============================================================================" >> $TMPFILE
if [[ -n "$hostcert_issuer" ]]; then
hex2binary "$STAPLED_OCSP_RESPONSE" | \
$OPENSSL ocsp -no_nonce -CAfile $TEMPDIR/intermediatecerts.pem -issuer $hostcert_issuer -cert $HOSTCERT -respin /dev/stdin -resp_text >> $TMPFILE 2>$ERRFILE
else
hex2binary "$STAPLED_OCSP_RESPONSE" | \
$OPENSSL ocsp -respin /dev/stdin -resp_text >> $TMPFILE 2>$ERRFILE
fi
echo "===============================================================================" >> $TMPFILE
elif [[ "$process_full" =~ all ]]; then
echo "OCSP response: no response sent" >> $TMPFILE
echo "===============================================================================" >> $TMPFILE
fi
# Now parse the server key exchange message
if [[ $tls_serverkeyexchange_ascii_len -ne 0 ]]; then
if [[ $rfc_cipher_suite =~ TLS_ECDHE_ ]] || [[ $rfc_cipher_suite =~ TLS_ECDH_anon ]] || \
[[ $rfc_cipher_suite == ECDHE* ]] || [[ $rfc_cipher_suite == AECDH* ]]; then
if [[ $tls_serverkeyexchange_ascii_len -lt 6 ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
curve_type=$(hex2dec "${tls_serverkeyexchange_ascii:0:2}")
if [[ $curve_type -eq 3 ]]; then
# named_curve - the curve is identified by a 2-byte number
named_curve=$(hex2dec "${tls_serverkeyexchange_ascii:2:4}")
# https://www.iana.org/assignments/tls-parameters/tls-parameters.xhtml#tls-parameters-8
case $named_curve in
1) dh_bits=163 ; named_curve_str="K-163" ;;
2) dh_bits=162 ; named_curve_str="sect163r1" ;;
3) dh_bits=163 ; named_curve_str="B-163" ;;
4) dh_bits=193 ; named_curve_str="sect193r1" ;;
5) dh_bits=193 ; named_curve_str="sect193r2" ;;
6) dh_bits=232 ; named_curve_str="K-233" ;;
7) dh_bits=233 ; named_curve_str="B-233" ;;
8) dh_bits=238 ; named_curve_str="sect239k1" ;;
9) dh_bits=281 ; named_curve_str="K-283" ;;
10) dh_bits=282 ; named_curve_str="B-283" ;;
11) dh_bits=407 ; named_curve_str="K-409" ;;
12) dh_bits=409 ; named_curve_str="B-409" ;;
13) dh_bits=570 ; named_curve_str="K-571" ;;
14) dh_bits=570 ; named_curve_str="B-571" ;;
15) dh_bits=161 ; named_curve_str="secp160k1" ;;
16) dh_bits=161 ; named_curve_str="secp160r1" ;;
17) dh_bits=161 ; named_curve_str="secp160r2" ;;
18) dh_bits=192 ; named_curve_str="secp192k1" ;;
19) dh_bits=192 ; named_curve_str="P-192" ;;
20) dh_bits=225 ; named_curve_str="secp224k1" ;;
21) dh_bits=224 ; named_curve_str="P-224" ;;
22) dh_bits=256 ; named_curve_str="secp256k1" ;;
23) dh_bits=256 ; named_curve_str="P-256" ;;
24) dh_bits=384 ; named_curve_str="P-384" ;;
25) dh_bits=521 ; named_curve_str="P-521" ;;
26) dh_bits=256 ; named_curve_str="brainpoolP256r1" ;;
27) dh_bits=384 ; named_curve_str="brainpoolP384r1" ;;
28) dh_bits=512 ; named_curve_str="brainpoolP512r1" ;;
29) dh_bits=253 ; named_curve_str="X25519" ;;
30) dh_bits=448 ; named_curve_str="X448" ;;
esac
if [[ "$DETECTED_TLS_VERSION" == 0303 ]]; then
# Skip over the public key to get to the SignatureAndHashAlgorithm
# This is TLS 1.2-only, as this field does not appear in earlier versions.
len1=2*$(hex2dec "${tls_serverkeyexchange_ascii:6:2}")
offset=$((len1+8))
if [[ $tls_serverkeyexchange_ascii_len -ge $((offset+4)) ]]; then
# The SignatureAndHashAlgorithm won't be present in an anonymous
# key exhange.
peering_signing_digest="${tls_serverkeyexchange_ascii:offset:2}"
peer_signature_type="${tls_serverkeyexchange_ascii:$((offset+2)):2}"
fi
fi
fi
if [[ $dh_bits -ne 0 ]] && [[ $named_curve -ne 29 ]] && [[ $named_curve -ne 30 ]]; then
[[ $DEBUG -ge 3 ]] && echo -e " dh_bits: ECDH, $named_curve_str, $dh_bits bits"
echo "Server Temp Key: ECDH, $named_curve_str, $dh_bits bits" >> $TMPFILE
elif [[ $dh_bits -ne 0 ]]; then
[[ $DEBUG -ge 3 ]] && echo -e " dh_bits: $named_curve_str, $dh_bits bits"
echo "Server Temp Key: $named_curve_str, $dh_bits bits" >> $TMPFILE
fi
elif [[ $rfc_cipher_suite =~ TLS_DHE_ ]] || [[ $rfc_cipher_suite =~ TLS_DH_anon ]] || \
[[ $rfc_cipher_suite == "DHE-"* ]] || [[ $rfc_cipher_suite == "EDH-"* ]] || \
[[ $rfc_cipher_suite == "EXP1024-DHE-"* ]]; then
# For DH ephemeral keys the first field is p, and the length of
# p is the same as the length of the public key.
if [[ $tls_serverkeyexchange_ascii_len -lt 4 ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
dh_p_len=2*$(hex2dec "${tls_serverkeyexchange_ascii:0:4}")
offset=4+$dh_p_len
if [[ $tls_serverkeyexchange_ascii_len -lt $offset ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
# Subtract any leading 0 bytes
for (( i=4; i < offset; i+=2 )); do
[[ "${tls_serverkeyexchange_ascii:i:2}" != "00" ]] && break
dh_p_len=$dh_p_len-2
done
if [[ $i -ge $offset ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
dh_p="${tls_serverkeyexchange_ascii:i:dh_p_len}"
dh_bits=4*$dh_p_len
msb=$(hex2dec "${tls_serverkeyexchange_ascii:i:2}")
for (( mask=128; msb < mask; mask/=2 )); do
dh_bits=$dh_bits-1
done
key_bitstring="$(get_dh_ephemeralkey "$tls_serverkeyexchange_ascii")"
[[ $? -eq 0 ]] && echo "$key_bitstring" >> $TMPFILE
# Check to see whether the ephemeral public key uses one of the groups from
# RFC 7919 for parameters
case $dh_bits in
2048) named_curve=256; named_curve_str=" ffdhe2048," ;;
3072) named_curve=257; named_curve_str=" ffdhe3072," ;;
4096) named_curve=258; named_curve_str=" ffdhe4096," ;;
6144) named_curve=259; named_curve_str=" ffdhe6144," ;;
8192) named_curve=260; named_curve_str=" ffdhe8192," ;;
*) named_curve=0; named_curve_str="" ;;
esac
[[ -z "$key_bitstring" ]] && named_curve=0 && named_curve_str=""
if "$HAS_PKEY" && [[ $named_curve -ne 0 ]] && [[ "${TLS13_KEY_SHARES[named_curve]}" =~ BEGIN ]]; then
ephemeral_param="$($OPENSSL pkey -pubin -text_pub -noout 2>>$ERRFILE <<< "$key_bitstring")"
# OpenSSL 3.0.0 outputs the group name rather than the actual parameter values for some named groups.
if [[ "$ephemeral_param" =~ GROUP: ]]; then
ephemeral_param="${ephemeral_param#*GROUP: }"
rfc7919_param="${named_curve_str# }"
rfc7919_param="${rfc7919_param%,}"
[[ "$ephemeral_param" =~ $rfc7919_param ]] || named_curve_str=""
else
ephemeral_param="$(grep -EA 1000 "prime:|P:" <<< "$ephemeral_param")"
rfc7919_param="$($OPENSSL pkey -text_pub -noout 2>>$ERRFILE <<< "${TLS13_KEY_SHARES[named_curve]}" | grep -EA 1000 "prime:|P:")"
[[ "$ephemeral_param" != "$rfc7919_param" ]] && named_curve_str=""
fi
fi
[[ $DEBUG -ge 3 ]] && [[ $dh_bits -ne 0 ]] && echo -e " dh_bits: DH,$named_curve_str $dh_bits bits"
[[ $dh_bits -ne 0 ]] && echo "Server Temp Key: DH,$named_curve_str $dh_bits bits" >> $TMPFILE
if [[ "$DETECTED_TLS_VERSION" == 0303 ]]; then
# Skip over the public key (P, G, Y) to get to the SignatureAndHashAlgorithm
# This is TLS 1.2-only, as this field does not appear in earlier versions.
offset=$((dh_p_len+4))
if [[ $tls_serverkeyexchange_ascii_len -lt $((offset+4)) ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
len1=2*$(hex2dec "${tls_serverkeyexchange_ascii:offset:4}")
offset+=$((len1+4))
if [[ $tls_serverkeyexchange_ascii_len -lt $((offset+4)) ]]; then
debugme echo "Malformed ServerKeyExchange Handshake message in ServerHello."
tmpfile_handle ${FUNCNAME[0]}.txt
return 1
fi
len1=2*$(hex2dec "${tls_serverkeyexchange_ascii:offset:4}")
offset+=$((len1+4))
if [[ $tls_serverkeyexchange_ascii_len -ge $((offset+4)) ]]; then
# The SignatureAndHashAlgorithm won't be present in an anonymous
# key exhange.
peering_signing_digest="${tls_serverkeyexchange_ascii:offset:2}"
peer_signature_type="${tls_serverkeyexchange_ascii:$((offset+2)):2}"
fi
fi
fi
fi
if [[ 0x$peering_signing_digest -eq 8 ]] && \
[[ 0x$peer_signature_type -ge 4 ]] && [[ 0x$peer_signature_type -le 11 ]]; then
case $peer_signature_type in
04) peering_signing_digest="SHA256"; peer_signature_type="RSA-PSS" ;;
05) peering_signing_digest="SHA384"; peer_signature_type="RSA-PSS" ;;
06) peering_signing_digest="SHA512"; peer_signature_type="RSA-PSS" ;;
07) peering_signing_digest=""; peer_signature_type="Ed25519" ;;
08) peering_signing_digest=""; peer_signature_type="Ed448" ;;
09) peering_signing_digest="SHA256"; peer_signature_type="RSA-PSS" ;;
0A) peering_signing_digest="SHA384"; peer_signature_type="RSA-PSS" ;;
0B) peering_signing_digest="SHA512"; peer_signature_type="RSA-PSS" ;;
esac
if [[ -n "$peering_signing_digest" ]]; then
echo "Peer signing digest: $peering_signing_digest" >> $TMPFILE
[[ $DEBUG -ge 3 ]] && echo -e " Peer signing digest: $peering_signing_digest"
fi
echo "Peer signature type: $peer_signature_type" >> $TMPFILE
[[ $DEBUG -ge 3 ]] && echo -e " Peer signature type: $peer_signature_type\n"
elif [[ 0x$peering_signing_digest -ge 1 ]] && [[ 0x$peering_signing_digest -le 6 ]] && \
[[ 0x$peer_signature_type -ge 1 ]] && [[ 0x$peer_signature_type -le 3 ]]; then
case $peering_signing_digest in
01) peering_signing_digest="MD5" ;;
02) peering_signing_digest="SHA1" ;;
03) peering_signing_digest="SHA224" ;;
04) peering_signing_digest="SHA256" ;;
05) peering_signing_digest="SHA384" ;;
06) peering_signing_digest="SHA512" ;;
esac
case $peer_signature_type in
01) peer_signature_type="RSA" ;;
02) peer_signature_type="DSA" ;;
03) peer_signature_type="ECDSA" ;;
esac
echo "Peer signing digest: $peering_signing_digest" >> $TMPFILE
[[ $DEBUG -ge 3 ]] && echo -e " Peer signing digest: $peering_signing_digest"
echo "Peer signature type: $peer_signature_type" >> $TMPFILE
[[ $DEBUG -ge 3 ]] && echo -e " Peer signature type: $peer_signature_type\n"
fi
tmpfile_handle ${FUNCNAME[0]}.txt
TLS_SERVER_HELLO="02$(printf "%06x" $(( tls_serverhello_ascii_len/2)) )${tls_serverhello_ascii}"
return 0
}
# ASCII-HEX encoded session ticket
parse_tls13_new_session_ticket() {
local tls_version="$1"
local new_session_ticket="$2"
local -i len ticket_lifetime ticket_age_add min_len remainder
local ticket_nonce ticket extensions
local has_nonce=true
[[ "${new_session_ticket:0:2}" == 04 ]] || return 7
# Prior to draft 21 the NewSessionTicket did not include a ticket_nonce.
[[ "${tls_version:0:2}" == 7F ]] && [[ 0x${tls_version:2:2} -le 20 ]] && has_nonce=false
# Set min_len to the minimum length that a session ticket can be.
min_len=28
"$has_nonce" || min_len=$((min_len-2))
remainder=$((2*0x${new_session_ticket:2:6}))
[[ $remainder -ge $min_len ]] || return 7
[[ ${#new_session_ticket} -ge $((remainder + 8)) ]] || return 7
ticket_lifetime=0x${new_session_ticket:8:8}
ticket_age_add=0x${new_session_ticket:16:8}
new_session_ticket="${new_session_ticket:24}"
remainder=$((remainder-16))
if "$has_nonce"; then
len=$((2*0x${new_session_ticket:0:2}))
new_session_ticket="${new_session_ticket:2}"
[[ $remainder -ge $((len + 12)) ]] || return 7
ticket_nonce="${new_session_ticket:0:len}"
new_session_ticket="${new_session_ticket:len}"
remainder=$((remainder-len-2))
fi
len=$((2*0x${new_session_ticket:0:4}))
new_session_ticket="${new_session_ticket:4}"
[[ $remainder -ge $((len + 8)) ]] || return 7
ticket="${new_session_ticket:0:len}"
new_session_ticket="${new_session_ticket:len}"
remainder=$((remainder-len-4))
len=$((2*0x${new_session_ticket:0:4}))
new_session_ticket="${new_session_ticket:4}"
[[ $remainder -eq $((len + 4)) ]] || return 7
extensions="${new_session_ticket:0:len}"
echo " TLS session ticket lifetime hint: $ticket_lifetime (seconds)" > $TMPFILE
tmpfile_handle ${FUNCNAME[0]}.txt $TMPFILE
return 0
}
#arg1 (optional): list of ciphers suites or empty
#arg2 (optional): "true" if full server response should be parsed.
# return: 6: couldn't open socket, 3(!): sslv2 handshake succeeded, 0=no SSLv2
# 1,4,6,7: see return value of parse_sslv2_serverhello()
sslv2_sockets() {
local ret
local cipher_suites="$1"
local client_hello len_client_hello
local len_ciph_suites_byte len_ciph_suites
local server_hello sock_reply_file2 foo
local -i response_len server_hello_len
local parse_complete=false
# this could be empty so we use '=='
if [[ "$2" == true ]]; then
parse_complete=true
fi
if [[ -z "$cipher_suites" ]]; then
cipher_suites="
05,00,80, # 1st cipher 9 cipher specs, only classical V2 ciphers are used here, see FIXME below
03,00,80, # 2nd there are v3 in v2!!! : https://tools.ietf.org/html/rfc6101#appendix-E
01,00,80, # 3rd Cipher specifications introduced in version 3.0 can be included in version 2.0 client hello messages using
07,00,c0, # 4th the syntax below. [..] # V2CipherSpec (see Version 3.0 name) = { 0x00, CipherSuite }; !!!!
08,00,80, # 5th
06,00,40, # 6th
04,00,80, # 7th
02,00,80, # 8th
06,01,40, # 9
07,01,c0, # 10
FF,80,00, # 11
FF,80,10, # 12
00,00,00" # 13
# FIXME: also SSLv3 ciphers, see
# https://web.archive.org/web/20170310142840/http://max.euston.net/d/tip_sslciphers.html
fi
code2network "$cipher_suites" # convert CIPHER_SUITES
cipher_suites="$NW_STR" # we don't have the leading \x here so string length is two byte less, see next
len_ciph_suites_byte=${#cipher_suites}
let "len_ciph_suites_byte += 2"
len_ciph_suites=$(printf "%02x\n" $(( len_ciph_suites_byte / 4 )))
len_client_hello=$(printf "%02x\n" $((0x$len_ciph_suites + 0x19)))
client_hello="
,80,$len_client_hello # length
,01 # Client Hello
,00,02 # SSLv2
,00,$len_ciph_suites # cipher spec length
,00,00 # session ID length
,00,10 # challenge length
,$cipher_suites
,29,22,be,b3,5a,01,8b,04,fe,5f,80,03,a0,13,eb,c4" # Challenge
# https://idea.popcount.org/2012-06-16-dissecting-ssl-handshake/ (client)
fd_socket 5 || return 6
debugme echo -n "sending client hello... "
socksend_clienthello "$client_hello"
sockread_serverhello 32768
if "$parse_complete"; then
if [[ -s "$SOCK_REPLY_FILE" ]]; then
server_hello=$(hexdump -v -e '16/1 "%02X"' "$SOCK_REPLY_FILE")
server_hello_len=$((2 + $(hex2dec "${server_hello:1:3}") ))
foo="$(wc -c "$SOCK_REPLY_FILE")"
response_len="${foo% *}"
for (( 1; response_len < server_hello_len; 1 )); do
sock_reply_file2=${SOCK_REPLY_FILE}.2
mv "$SOCK_REPLY_FILE" "$sock_reply_file2"
debugme echo -n "requesting more server hello data... "
socksend "" $USLEEP_SND
sockread_serverhello 32768
[[ ! -s "$SOCK_REPLY_FILE" ]] && break
cat "$SOCK_REPLY_FILE" >> "$sock_reply_file2"
mv "$sock_reply_file2" "$SOCK_REPLY_FILE"
foo="$(wc -c "$SOCK_REPLY_FILE")"
response_len="${foo% *}"
done
fi
fi
debugme echo "reading server hello... "
if [[ "$DEBUG" -ge 4 ]]; then
hexdump -C "$SOCK_REPLY_FILE" | head -6
tmln_out
fi
parse_sslv2_serverhello "$SOCK_REPLY_FILE" "$parse_complete"
ret=$?
close_socket 5
tmpfile_handle ${FUNCNAME[0]}.dd $SOCK_REPLY_FILE
return $ret
}
# arg1: supported groups extension
# arg2: "all" - process full response (including Certificate and certificate_status handshake messages)
# "ephemeralkey" - extract the server's ephemeral key (if any)
# Given the supported groups extension, create a key_share extension that includes a key share for
# each group listed in the supported groups extension.
generate_key_share_extension() {
local supported_groups
local -i i len supported_groups_len group
local extn_len list_len
local key_share key_shares=""
local -i nr_key_shares=0
supported_groups="${1//\\x/}"
[[ "${supported_groups:0:4}" != "000a" ]] && return 1
supported_groups_len=${#supported_groups}
[[ $supported_groups_len -lt 16 ]] && return 1
len=2*$(hex2dec "${supported_groups:4:4}")
[[ $len+8 -ne $supported_groups_len ]] && return 1
len=2*$(hex2dec "${supported_groups:8:4}")
[[ $len+12 -ne $supported_groups_len ]] && return 1
for (( i=12; i<supported_groups_len; i+=4 )); do
group=$(hex2dec "${supported_groups:i:4}")
# If the Supported groups extensions lists more than one group,
# then don't include the larger key shares in the extension.
[[ $i -gt 12 ]] && [[ $group -gt 256 ]] && continue
# Versions of OpenSSL prior to 1.1.0 cannot perform operations
# with X25519 keys, so don't include the X25519 key share
# if the server's response needs to be decrypted and an
# older version of OpenSSL is being used.
[[ $i -gt 12 ]] && [[ $group -eq 29 ]] && [[ "$2" == all ]] && ! "$HAS_X25519" && continue
# Versions of OpenSSL prior to 1.1.1 cannot perform operations
# with X448 keys, so don't include the X448 key share
# if the server's response needs to be decrypted and an
# older version of OpenSSL is being used.
[[ $i -gt 12 ]] && [[ $group -eq 30 ]] && [[ "$2" == all ]] && ! "$HAS_X448" && continue
# NOTE: The public keys could be extracted from the private keys
# (TLS13_KEY_SHARES) using $OPENSSL, but only OpenSSL 1.1.0 and newer can
# extract the public key from an X25519 private key, and only
# OpenSSL 1.1.1 can extract the public key from an X448 private key.
key_share="${TLS13_PUBLIC_KEY_SHARES[group]}"
if [[ ${#key_share} -gt 4 ]]; then
key_shares+=",$key_share"
nr_key_shares+=1
# Don't include more than two keys, so that the extension isn't too large.
[[ $nr_key_shares -ge 2 ]] && break
fi
done
[[ -z "$key_shares" ]] && tm_out "" && return 0
len=${#key_shares}/3
list_len="$(printf "%04x" "$len")"
len+=2
extn_len="$(printf "%04x" "$len")"
tm_out "00,$KEY_SHARE_EXTN_NR,${extn_len:0:2},${extn_len:2:2},${list_len:0:2},${list_len:2:2}$key_shares"
return 0
}
# ARG1: TLS version low byte (00: SSLv3, 01: TLS 1.0, 02: TLS 1.1, 03: TLS 1.2)
# ARG2: CIPHER_SUITES string (lowercase, and in the format output by code2network())
# ARG3: "all" - process full response (including Certificate and certificate_status handshake messages)
# "all+" - same as "all", but do not offer any curves with TLSv1.3 that are not supported by
# $OPENSSL, since response MUST be decrypted.
# "ephemeralkey" - extract the server's ephemeral key (if any)
# ARG4: (optional) additional request extensions
# ARG5: (optional): "true" if ClientHello should advertise compression methods other than "NULL"
# ARG6: (optional): "false" if prepare_tls_clienthello() should not open a new socket
#
prepare_tls_clienthello() {
local tls_low_byte="$1" tls_legacy_version="$1"
local process_full="$3"
local new_socket=true
local tls_word_reclayer="03, 01" # the first TLS version number is the record layer and always 0301
# -- except: SSLv3 and second ClientHello after HelloRetryRequest
local servername_hexstr len_servername len_servername_hex
local hexdump_format_str part1 part2
local all_extensions=""
local -i i j len_extension len_padding_extension len_all len_session_id
local len_sni_listlen len_sni_ext len_extension_hex len_padding_extension_hex
local cipher_suites len_ciph_suites len_ciph_suites_byte len_ciph_suites_word
local len_client_hello_word len_all_word
local ecc_cipher_suite_found=false
local extension_signature_algorithms extension_heartbeat session_id
local extension_session_ticket extension_next_protocol
local extension_supported_groups="" extension_supported_point_formats=""
local extensions_key_share="" extn_type supported_groups_c2n="" extn_psk_mode=""
local extra_extensions extra_extensions_list="" extension_supported_versions=""
local offer_compression=false compression_methods
# TLSv1.3 ClientHello messages MUST specify only the NULL compression method.
[[ "$5" == true ]] && [[ "0x$tls_low_byte" -le "0x03" ]] && offer_compression=true
[[ "$6" == false ]] && new_socket=false
cipher_suites="$2" # we don't have the leading \x here so string length is two byte less, see next
len_ciph_suites_byte=${#cipher_suites}
let "len_ciph_suites_byte += 2"
# we have additional 2 chars \x in each 2 byte string and 2 byte ciphers, so we need to divide by 4:
len_ciph_suites=$(printf "%02x\n" $(( len_ciph_suites_byte / 4 )))
len2twobytes "$len_ciph_suites"
len_ciph_suites_word="$LEN_STR"
#[[ $DEBUG -ge 3 ]] && echo $len_ciph_suites_word
if [[ "$tls_low_byte" != "00" ]]; then
# Add extensions
# Check to see if any ECC cipher suites are included in cipher_suites
# (not needed for TLSv1.3)
if [[ "0x$tls_low_byte" -le "0x03" ]]; then
for (( i=0; i<len_ciph_suites_byte; i+=8 )); do
j=$i+4
part1="0x${cipher_suites:$i:2}"
part2="0x${cipher_suites:$j:2}"
if [[ "$part1" == 0xc0 ]]; then
if [[ "$part2" -ge 0x01 ]] && [[ "$part2" -le 0x19 ]]; then
ecc_cipher_suite_found=true && break
elif [[ "$part2" -ge 0x23 ]] && [[ "$part2" -le 0x3b ]]; then
ecc_cipher_suite_found=true && break
elif [[ "$part2" -ge 0x48 ]] && [[ "$part2" -le 0x4f ]]; then
ecc_cipher_suite_found=true && break
elif [[ "$part2" -ge 0x5c ]] && [[ "$part2" -le 0x63 ]]; then
ecc_cipher_suite_found=true && break
elif [[ "$part2" -ge 0x70 ]] && [[ "$part2" -le 0x79 ]]; then
ecc_cipher_suite_found=true && break
elif [[ "$part2" -ge 0x86 ]] && [[ "$part2" -le 0x8d ]]; then
ecc_cipher_suite_found=true && break
elif [[ "$part2" -ge 0x9a ]] && [[ "$part2" -le 0x9b ]]; then
ecc_cipher_suite_found=true && break
elif [[ "$part2" -ge 0xac ]] && [[ "$part2" -le 0xaf ]]; then
ecc_cipher_suite_found=true && break
fi
elif [[ "$part1" == 0xcc ]]; then
if [[ "$part2" == 0xa8 ]] || [[ "$part2" == 0xa9 ]] || \
[[ "$part2" == 0xac ]] || [[ "$part2" == 0x13 ]] || \
[[ "$part2" == 0x14 ]]; then
ecc_cipher_suite_found=true && break
fi
fi
done
fi
if [[ -n "$SNI" ]]; then
#formatted example for SNI
#00 00 # extension server_name
#00 1a # length = the following +2 = server_name length + 5
#00 18 # server_name list_length = server_name length +3
#00 # server_name type (hostname)
#00 15 # server_name length
#66 66 66 66 66 66 2e 66 66 66 66 66 66 66 66 66 66 2e 66 66 66 target.mydomain1.tld # server_name target
servername=${XMPP_HOST:-${NODE}}
len_servername=${#servername}
hexdump_format_str="$len_servername/1 \"%02x,\""
servername_hexstr=$(printf $servername | hexdump -v -e "${hexdump_format_str}" | sed 's/,$//')
# convert lengths we need to fill in from dec to hex:
len_servername_hex=$(printf "%02x\n" $len_servername)
len_sni_listlen=$(printf "%02x\n" $((len_servername+3)))
len_sni_ext=$(printf "%02x\n" $((len_servername+5)))
fi
if [[ 0x$tls_low_byte -le 0x03 ]]; then
extension_signature_algorithms="
00, 0d, # Type: signature_algorithms , see RFC 5246 and RFC 8422
00, 24, 00,22, # lengths
06,01, 06,02, 06,03, 05,01, 05,02, 05,03, 04,01, 04,02, 04,03,
03,01, 03,02, 03,03, 02,01, 02,02, 02,03, 08,07, 08,08"
else
extension_signature_algorithms="
00, 0d, # Type: signature_algorithms , see RFC 8446
00, 22, 00, 20, # lengths
04,03, 05,03, 06,03, 08,04, 08,05, 08,06,
04,01, 05,01, 06,01, 08,09, 08,0a, 08,0b,
08,07, 08,08, 02,01, 02,03"
fi
extension_heartbeat="
00, 0f, 00, 01, 01"
extension_session_ticket="
00, 23, 00, 00"
extension_next_protocol="
33, 74, 00, 00"
extn_psk_mode="
00, 2d, 00, 02, 01, 01"
if "$ecc_cipher_suite_found"; then
# Supported Groups Extension
extension_supported_groups="
00, 0a, # Type: Supported Elliptic Curves , see RFC 4492
00, 3e, 00, 3c, # lengths
00, 0e, 00, 0d, 00, 19, 00, 1c, 00, 1e, 00, 0b, 00, 0c, 00, 1b,
00, 18, 00, 09, 00, 0a, 00, 1a, 00, 16, 00, 17, 00, 1d, 00, 08,
00, 06, 00, 07, 00, 14, 00, 15, 00, 04, 00, 05, 00, 12, 00, 13,
00, 01, 00, 02, 00, 03, 00, 0f, 00, 10, 00, 11"
elif [[ 0x$tls_low_byte -gt 0x03 ]]; then
# Supported Groups Extension
if [[ ! "$process_full" =~ all ]] || ( "$HAS_X25519" && "$HAS_X448" ); then
extension_supported_groups="
00,0a, # Type: Supported Groups, see RFC 8446
00,10, 00,0e, # lengths
00,1d, 00,17, 00,1e, 00,18, 00,19,
01,00, 01,01"
# OpenSSL prior to 1.1.1 does not support X448, so list it as the least
# preferred option if the response needs to be decrypted, and do not
# list it at all if the response MUST be decrypted.
elif "$HAS_X25519" && [[ "$process_full" == all+ ]]; then
extension_supported_groups="
00,0a, # Type: Supported Groups, see RFC 8446
00,0e, 00,0c, # lengths
00,1d, 00,17, 00,18, 00,19,
01,00, 01,01"
elif "$HAS_X25519"; then
extension_supported_groups="
00,0a, # Type: Supported Groups, see RFC 8446
00,10, 00,0e, # lengths
00,1d, 00,17, 00,18, 00,19,
01,00, 01,01, 00,1e"
# OpenSSL prior to 1.1.0 does not support either X25519 or X448,
# so list them as the least referred options if the response
# needs to be decrypted, and do not list them at all if the
# response MUST be decrypted.
elif [[ "$process_full" == all+ ]]; then
extension_supported_groups="
00,0a, # Type: Supported Groups, see RFC 8446
00,0c, 00,0a, # lengths
00,17, 00,18, 00,19,
01,00, 01,01"
else
extension_supported_groups="
00,0a, # Type: Supported Groups, see RFC 8446
00,10, 00,0e, # lengths
00,17, 00,18, 00,19,
01,00, 01,01, 00,1d, 00,1e"
fi
code2network "$extension_supported_groups"
supported_groups_c2n="$NW_STR"
fi
if "$ecc_cipher_suite_found" || [[ 0x$tls_low_byte -gt 0x03 ]]; then
# Supported Point Formats Extension.
extension_supported_point_formats="
00, 0b, # Type: Supported Point Formats , see RFC 4492
00, 02, # len
01, 00"
fi
# Each extension should appear in the ClientHello at most once. So,
# find out what extensions were provided as an argument and only use
# the provided values for those extensions.
extra_extensions="$(tolower "$4")"
code2network "$extra_extensions"
len_all=${#NW_STR}
for (( i=0; i < len_all; i+=16+4*0x$len_extension_hex )); do
part2=$i+4
extn_type="${NW_STR:i:2}${NW_STR:part2:2}"
extra_extensions_list+=" $extn_type "
j=$i+8
part2=$j+4
len_extension_hex="${NW_STR:j:2}${NW_STR:part2:2}"
if [[ "$extn_type" == "000a" ]] && [[ 0x$tls_low_byte -gt 0x03 ]]; then
j=14+4*0x$len_extension_hex
supported_groups_c2n="${NW_STR:i:j}"
fi
done
if [[ 0x$tls_low_byte -gt 0x03 ]]; then
extensions_key_share="$(generate_key_share_extension "$supported_groups_c2n" "$process_full")"
[[ $? -ne 0 ]] && return 1
fi
if [[ -n "$SNI" ]] && [[ ! "$extra_extensions_list" =~ " 0000 " ]]; then
all_extensions="
00, 00 # extension server_name
,00, $len_sni_ext # length SNI EXT
,00, $len_sni_listlen # server_name list_length
,00 # server_name type (hostname)
,00, $len_servername_hex # server_name length. We assume len(hostname) < FF - 9
,$servername_hexstr" # server_name target
fi
if [[ 0x$tls_low_byte -ge 0x04 ]] && [[ ! "$extra_extensions_list" =~ " 002b " ]]; then
# Add supported_versions extension listing all TLS/SSL versions
# from the one specified in $tls_low_byte to SSLv3.
for (( i=0x$tls_low_byte; i >=0; i=i-1 )); do
if [[ 0x$i -eq 4 ]]; then
# FIXME: The ClientHello currently advertises support for various
# draft versions of TLSv1.3. Eventually it should only adversize
# support for the final version (0304).
if [[ "$KEY_SHARE_EXTN_NR" == 33 ]]; then
extension_supported_versions+=", 03, 04, 7f, 1c, 7f, 1b, 7f, 1a, 7f, 19, 7f, 18, 7f, 17"
else
extension_supported_versions+=", 7f, 16, 7f, 15, 7f, 14, 7f, 13, 7f, 12"
fi
else
extension_supported_versions+=", 03, $(printf "%02x" $i)"
fi
done
[[ -n "$all_extensions" ]] && all_extensions+=","
# FIXME: Adjust the lengths ("+15" and "+14") when the draft versions of TLSv1.3 are removed.
if [[ "$KEY_SHARE_EXTN_NR" == "33" ]]; then
all_extensions+="00, 2b, 00, $(printf "%02x" $((2*0x$tls_low_byte+15))), $(printf "%02x" $((2*0x$tls_low_byte+14)))$extension_supported_versions"
else
all_extensions+="00, 2b, 00, $(printf "%02x" $((2*0x$tls_low_byte+11))), $(printf "%02x" $((2*0x$tls_low_byte+10)))$extension_supported_versions"
fi
fi
# There does not seem to be any reason to include this extension. However, it appears that
# OpenSSL, Firefox, and Chrome include it in TLS 1.3 ClientHello messages, and there is at
# least one server that will fail the connection if it is absent
# (see https://github.com/drwetter/testssl.sh/issues/990).
if [[ "0x$tls_low_byte" -ge 0x04 ]] && [[ ! "$extra_extensions_list" =~ " 002d " ]]; then
[[ -n "$all_extensions" ]] && all_extensions+=","
all_extensions+="$extn_psk_mode"
fi
if [[ ! "$extra_extensions_list" =~ " 0023 " ]]; then
[[ -n "$all_extensions" ]] && all_extensions+=","
all_extensions+="$extension_session_ticket"
fi
# If the ClientHello will include the ALPN extension, then don't include the NPN extension.
if [[ ! "$extra_extensions_list" =~ " 3374 " ]] && [[ ! "$extra_extensions_list" =~ " 0010 " ]]; then
[[ -n "$all_extensions" ]] && all_extensions+=","
all_extensions+="$extension_next_protocol"
fi
# RFC 5246 says that clients MUST NOT offer the signature algorithms
# extension if they are offering TLS versions prior to 1.2.
if [[ "0x$tls_low_byte" -ge 0x03 ]] && [[ ! "$extra_extensions_list" =~ " 000d " ]]; then
[[ -n "$all_extensions" ]] && all_extensions+=","
all_extensions+="$extension_signature_algorithms"
fi
if [[ -n "$extension_supported_groups" ]] && [[ ! "$extra_extensions_list" =~ " 000a " ]]; then
[[ -n "$all_extensions" ]] && all_extensions+=","
all_extensions+="$extension_supported_groups"
fi
if [[ -n "$extensions_key_share" ]] && [[ ! "$extra_extensions_list" =~ " 00$KEY_SHARE_EXTN_NR " ]]; then
[[ -n "$all_extensions" ]] && all_extensions+=","
all_extensions+="$extensions_key_share"
fi
if [[ -n "$extension_supported_point_formats" ]] && [[ ! "$extra_extensions_list" =~ " 000b " ]]; then
[[ -n "$all_extensions" ]] && all_extensions+=","
all_extensions+="$extension_supported_point_formats"
fi
if [[ "0x$tls_low_byte" -ge 0x04 ]] && [[ ! "$extra_extensions_list" =~ " 001b " ]]; then
# If the response needs to be decrypted, then indicate support
# for ZLIB certificate compression if $OPENSSL can decompress
# the result. If the response does not need to be decrypted,
# then indicate support for all certificate compression methods,
# as the response does not need to be decompressed.
if [[ "$process_full" =~ all ]]; then
if "$HAS_ZLIB"; then
[[ -n "$all_extensions" ]] && all_extensions+=","
all_extensions+="00,1b,00,03,02,00,01"
fi
else
[[ -n "$all_extensions" ]] && all_extensions+=","
all_extensions+="00,1b,00,07,06,00,01,00,02,00,03"
fi
fi
if [[ -n "$extra_extensions" ]]; then
[[ -n "$all_extensions" ]] && all_extensions+=","
all_extensions+="$extra_extensions"
fi
# Make sure that a non-empty extension goes last (either heartbeat or padding).
# See PR #792 and https://www.ietf.org/mail-archive/web/tls/current/msg19720.html.
if [[ ! "$extra_extensions_list" =~ " 000f " ]]; then
[[ -n "$all_extensions" ]] && all_extensions+=","
all_extensions+="$extension_heartbeat"
fi
code2network "$all_extensions" # convert extensions
all_extensions="$NW_STR" # we don't have the leading \x here so string length is two byte less, see next
len_extension=${#all_extensions}
len_extension+=2
len_extension=$len_extension/4
len_extension_hex=$(printf "%02x\n" $len_extension)
# If the length of the Client Hello would be between 256 and 511 bytes,
# then add a padding extension (see RFC 7685)
len_all=$((0x$len_ciph_suites + 0x2b + 0x$len_extension_hex + 0x2))
"$offer_compression" && len_all+=2
[[ 0x$tls_low_byte -gt 0x03 ]] && len_all+=32 # TLSv1.3 ClientHello includes a 32-byte session id
if [[ $len_all -ge 256 ]] && [[ $len_all -le 511 ]] && [[ ! "$extra_extensions_list" =~ " 0015 " ]]; then
if [[ $len_all -ge 508 ]]; then
len_padding_extension=1 # Final extension cannot be empty: see PR #792
else
len_padding_extension=$((508 - len_all))
fi
len_padding_extension_hex=$(printf "%02x\n" $len_padding_extension)
len2twobytes "$len_padding_extension_hex"
all_extensions="$all_extensions\\x00\\x15\\x${LEN_STR:0:2}\\x${LEN_STR:4:2}"
for (( i=0; i<len_padding_extension; i++ )); do
all_extensions="$all_extensions\\x00"
done
len_extension=$len_extension+$len_padding_extension+0x4
len_extension_hex=$(printf "%02x\n" $len_extension)
elif [[ ! "$extra_extensions_list" =~ " 0015 " ]] && ( [[ $((len_all%256)) -eq 10 ]] || [[ $((len_all%256)) -eq 14 ]] ); then
# Some servers fail if the length of the ClientHello is 522, 778, 1034, 1290, ... bytes.
# A few servers also fail if the length is 526, 782, 1038, 1294, ... bytes.
# So, if the ClientHello would be one of these length, add a 5-byte padding extension.
all_extensions="$all_extensions\\x00\\x15\\x00\\x01\\x00"
len_extension+=5
len_extension_hex=$(printf "%02x\n" $len_extension)
fi
len2twobytes "$len_extension_hex"
all_extensions="
,$LEN_STR # first the len of all extensions.
,$all_extensions"
fi
if [[ 0x$tls_low_byte -gt 0x03 ]]; then
# TLSv1.3 calls for sending a random 32-byte session id in middlebox compatibility mode.
session_id="20,44,b8,92,56,af,74,52,9e,d8,cf,52,14,c8,af,d8,34,0b,e7,7f,eb,86,01,84,50,5d,e4,a1,6a,09,3b,bf,6e"
len_session_id=32
else
session_id="00"
len_session_id=0
fi
# RFC 3546 doesn't specify SSLv3 to have SNI, openssl just ignores the switch if supplied
if [[ "$tls_low_byte" == "00" ]]; then
len_all=$((0x$len_ciph_suites + len_session_id + 0x27))
else
len_all=$((0x$len_ciph_suites + len_session_id + 0x27 + 0x$len_extension_hex + 0x2))
fi
"$offer_compression" && len_all+=2
len2twobytes $(printf "%02x\n" $len_all)
len_client_hello_word="$LEN_STR"
#[[ $DEBUG -ge 3 ]] && echo $len_client_hello_word
if [[ "$tls_low_byte" == 00 ]]; then
len_all=$((0x$len_ciph_suites + len_session_id + 0x2b))
else
len_all=$((0x$len_ciph_suites + len_session_id + 0x2b + 0x$len_extension_hex + 0x2))
fi
"$offer_compression" && len_all+=2
len2twobytes $(printf "%02x\n" $len_all)
len_all_word="$LEN_STR"
#[[ $DEBUG -ge 3 ]] && echo $len_all_word
# if we have SSLv3, the first occurrence of TLS protocol -- record layer -- is SSLv3, otherwise TLS 1.0,
# except in the case of a second ClientHello in TLS 1.3, in which case it is TLS 1.2.
[[ $tls_low_byte == "00" ]] && tls_word_reclayer="03, 00"
[[ 0x$tls_legacy_version -ge 0x04 ]] && tls_legacy_version="03"
if "$offer_compression"; then
# See https://www.iana.org/assignments/comp-meth-ids/comp-meth-ids.xhtml#comp-meth-ids-2
compression_methods="03,01,40,00" # Offer NULL, DEFLATE, and LZS compression
else
compression_methods="01,00" # Only offer NULL compression (0x00)
fi
TLS_CLIENT_HELLO="
# TLS header ( 5 bytes)
,16, $tls_word_reclayer # TLS Version: in wireshark this is always 01 for TLS 1.0-1.2
,$len_all_word # Length <---
# Handshake header:
,01 # Type (x01 for ClientHello)
,00, $len_client_hello_word # Length ClientHello
,03, $tls_legacy_version # TLS version ClientHello
,54, 51, 1e, 7a # Unix time since see www.moserware.com/2009/06/first-few-milliseconds-of-https.html
,de, ad, be, ef # Random 28 bytes
,31, 33, 07, 00, 00, 00, 00, 00
,cf, bd, 39, 04, cc, 16, 0b, 85
,03, 90, 9f, 77, 04, 33, d4, de
,$session_id
,$len_ciph_suites_word # Cipher suites length
,$cipher_suites
,$compression_methods"
if "$new_socket"; then
fd_socket 5 || return 6
fi
debugme echo -n "sending client hello... "
socksend_clienthello "$TLS_CLIENT_HELLO$all_extensions" $USLEEP_SND
if [[ "$tls_low_byte" -gt 0x03 ]]; then
TLS_CLIENT_HELLO="$(tolower "$NW_STR")"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\x0\\/\\x00\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\x1\\/\\x01\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\x2\\/\\x02\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\x3\\/\\x03\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\x4\\/\\x04\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\x5\\/\\x05\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\x6\\/\\x06\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\x7\\/\\x07\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\x8\\/\\x08\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\x9\\/\\x09\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\xa\\/\\x0a\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\xb\\/\\x0b\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\xc\\/\\x0c\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\xd\\/\\x0d\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\xe\\/\\x0e\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\xf\\/\\x0f\\}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO//\\x/}"
TLS_CLIENT_HELLO="${TLS_CLIENT_HELLO:10}"
fi
return 0
}
# arg1: The original ClientHello
# arg2: The server's response
# Return 0 if the response is not a HelloRetryRequest.
# Return 1 if the response is a malformed HelloRetryRequest or if a new ClientHello cannot be sent.
# Return 2 if the response is a HelloRetryRequest, and sending a new ClientHello succeeded.
# Return 6 if the response is a HelloRetryRequest, and sending a new ClientHello failed.
resend_if_hello_retry_request() {
local original_clienthello="$1"
local tls_hello_ascii="$2"
local msg_type server_version cipher_suite rfc_cipher_suite
local key_share="" new_key_share="" cookie="" second_clienthello data=""
local -i i j msg_len tls_hello_ascii_len sid_len
local -i extns_offset hrr_extns_len len_extn
local extn_type
local sha256_hrr="CF21AD74E59A6111BE1D8C021E65B891C2A211167ABB8C5E079E09E2C8A8339C"
tls_hello_ascii_len=${#tls_hello_ascii}
# A HelloRetryRequest is at least 13 bytes long
[[ $tls_hello_ascii_len -lt 26 ]] && return 0
# A HelloRetryRequest is a handshake message (16) with a major record version of 03.
[[ "${tls_hello_ascii:0:4}" != 1603 ]] && return 0
msg_type="${tls_hello_ascii:10:2}"
if [[ "$msg_type" == 02 ]]; then
# A HRR is a ServerHello with a Random value equal to the
# SHA-256 hash of "HelloRetryRequest"
[[ $tls_hello_ascii_len -lt 76 ]] && return 0
[[ "${tls_hello_ascii:22:64}" != $sha256_hrr ]] && return 0
elif [[ "$msg_type" != 06 ]]; then
# The handshake type for hello_retry_request in draft versions was 06.
return 0
fi
# This appears to be a HelloRetryRequest message.
debugme echo "reading hello retry request... "
if [[ "$DEBUG" -ge 4 ]]; then
hexdump -C $SOCK_REPLY_FILE | head -6
echo
[[ "$DEBUG" -ge 5 ]] && echo "$tls_hello_ascii" # one line without any blanks
fi
# Check the length of the handshake message
msg_len=2*$(hex2dec "${tls_hello_ascii:6:4}")
if [[ $msg_len -gt $tls_hello_ascii_len-10 ]]; then
debugme echo "malformed HelloRetryRequest"
return 1
fi
# The HelloRetryRequest message may be followed by something
# else (e.g., a change cipher spec message). Ignore anything
# that follows.
tls_hello_ascii_len=$msg_len+10
# Check the length of the HelloRetryRequest message.
msg_len=2*$(hex2dec "${tls_hello_ascii:12:6}")
if [[ $msg_len -ne $tls_hello_ascii_len-18 ]]; then
debugme echo "malformed HelloRetryRequest"
return 1
fi
if [[ "$msg_type" == 06 ]]; then
server_version="${tls_hello_ascii:18:4}"
if [[ 0x$server_version -ge 0x7f13 ]]; then
# Starting with TLSv1.3 draft 19, a HelloRetryRequest is at least 15 bytes long
[[ $tls_hello_ascii_len -lt 30 ]] && return 0
cipher_suite="${tls_hello_ascii:22:2},${tls_hello_ascii:24:2}"
extns_offset=26
else
extns_offset=22
fi
else
sid_len=2*$(hex2dec "${tls_hello_ascii:86:2}")
i=88+$sid_len
j=90+$sid_len
cipher_suite="${tls_hello_ascii:i:2},${tls_hello_ascii:j:2}"
extns_offset=94+$sid_len
fi
# Check the length of the extensions.
hrr_extns_len=2*$(hex2dec "${tls_hello_ascii:extns_offset:4}")
if [[ $hrr_extns_len -ne $tls_hello_ascii_len-$extns_offset-4 ]]; then
debugme echo "malformed HelloRetryRequest"
return 1
fi
# Parse HelloRetryRequest extensions
for (( i=extns_offset+4; i < tls_hello_ascii_len; i+=8+len_extn )); do
extn_type="${tls_hello_ascii:i:4}"
j=$i+4
len_extn=2*$(hex2dec "${tls_hello_ascii:j:4}")
j+=4
if [[ $len_extn -gt $tls_hello_ascii_len-$j ]]; then
debugme echo "malformed HelloRetryRequest"
return 1
fi
if [[ "$extn_type" == 002C ]]; then
# If the HRR includes a cookie extension, then it needs to be
# included in the next ClientHello.
j=8+$len_extn
cookie="${tls_hello_ascii:i:j}"
elif [[ "$extn_type" == 00$KEY_SHARE_EXTN_NR ]]; then
# If the HRR includes a key_share extension, then it specifies the
# group to be used in the next ClientHello. So, create a key_share
# extension that specifies this group.
if [[ $len_extn -ne 4 ]]; then
debugme echo "malformed key share extension in HelloRetryRequest"
return 1
fi
key_share="${tls_hello_ascii:j:4}"
new_key_share="$(generate_key_share_extension "000a00040002$key_share" "ephemeralkey")"
[[ $? -ne 0 ]] && return 1
[[ -z "$new_key_share" ]] && return 1
new_key_share="${new_key_share//,/}"
elif [[ "$extn_type" == 002B ]]; then
if [[ $len_extn -ne 4 ]]; then
debugme echo "malformed supported versions extension in HelloRetryRequest"
return 1
fi
server_version="${tls_hello_ascii:j:4}"
fi
done
if [[ $DEBUG -ge 3 ]]; then
echo "TLS message fragments:"
echo " tls_protocol (reclyr): 0x${tls_hello_ascii:2:4}"
echo " tls_content_type: 0x16 (handshake)"
echo " msg_len: $(hex2dec "${tls_hello_ascii:6:4}")"
echo
echo "TLS handshake message:"
echo -n " handshake type: 0x$msg_type "
case "$msg_type" in
02) echo "(hello_retry_request formatted as server_hello)" ;;
06) echo "(hello_retry_request)" ;;
esac
echo " msg_len: $(hex2dec "${tls_hello_ascii:12:6}")"
echo
echo "TLS hello retry request message:"
echo " server version: $server_version"
if [[ "$server_version" == 0304 ]] || [[ 0x$server_version -ge 0x7f13 ]]; then
echo -n " cipher suite: $cipher_suite"
if [[ $TLS_NR_CIPHERS -ne 0 ]]; then
if [[ "${cipher_suite:0:2}" == "00" ]]; then
rfc_cipher_suite="$(show_rfc_style "x${cipher_suite:3:2}")"
else
rfc_cipher_suite="$(show_rfc_style "x${cipher_suite:0:2}${cipher_suite:3:2}")"
fi
elif "$HAS_CIPHERSUITES"; then
rfc_cipher_suite="$($OPENSSL ciphers -V -ciphersuites "$TLS13_OSSL_CIPHERS" 'ALL:COMPLEMENTOFALL' | grep -i " 0x${cipher_suite:0:2},0x${cipher_suite:3:2} " | awk '{ print $3 }')"
else
rfc_cipher_suite="$($OPENSSL ciphers -V 'ALL:COMPLEMENTOFALL' | grep -i " 0x${cipher_suite:0:2},0x${cipher_suite:3:2} " | awk '{ print $3 }')"
fi
if [[ -n "$rfc_cipher_suite" ]]; then
echo " ($rfc_cipher_suite)"
else
echo ""
fi
fi
[[ -n "$key_share" ]] && echo " key share: 0x$key_share"
[[ -n "$cookie" ]] && echo " cookie: $cookie"
fi
# Starting with TLSv1.3 draft 24, the second ClientHello should specify a record layer version of 0x0303
if [[ "$server_version" == 0304 ]] || [[ 0x$server_version -ge 0x7f18 ]]; then
original_clienthello="160303${original_clienthello:6}"
fi
if [[ "$server_version" == 0304 ]] || [[ 0x$server_version -ge 0x7f16 ]]; then
# Send a dummy change cipher spec for middlebox compatibility.
debugme echo -en "\nsending dummy change cipher spec... "
socksend ", x14, x03, x03 ,x00, x01, x01" 0
fi
debugme echo -en "\nsending second client hello... "
second_clienthello="$(modify_clienthello "$original_clienthello" "$new_key_share" "$cookie")"
TLS_CLIENT_HELLO="${second_clienthello:10}"
msg_len=${#second_clienthello}
for (( i=0; i < msg_len; i+=2 )); do
data+=", ${second_clienthello:i:2}"
done
debugme echo -n "sending client hello... "
socksend_clienthello "$data" $USLEEP_SND
sockread_serverhello 32768
return 2
}
# arg1: TLS version low byte
# (00: SSLv3, 01: TLS 1.0, 02: TLS 1.1, 03: TLS 1.2)
# arg2: (optional) list of cipher suites
# arg3: (optional): "all" - process full response (including Certificate and certificate_status handshake messages)
# "all+" - same as "all", but do not offer any curves with TLSv1.3 that are not supported by
# $OPENSSL, since response MUST be decrypted.
# "ephemeralkey" - extract the server's ephemeral key (if any)
# arg4: (optional) additional request extensions
# arg5: (optional) "true" if ClientHello should advertise compression methods other than "NULL"
# arg6: (optional) "false" if the connection should not be closed before the function returns.
# return: 0: successful connect | 1: protocol or cipher not available | 2: as (0) but downgraded
# 6: couldn't open socket | 7: couldn't open temp file
tls_sockets() {
local -i ret=0
local -i save=0
local lines
local tls_low_byte
local cipher_list_2send
local sock_reply_file2 sock_reply_file3
local tls_hello_ascii next_packet
local clienthello1 original_clienthello hrr=""
local process_full="$3" offer_compression=false skip=false
local close_connection=true include_headers=true
local -i i len tag_len hello_done=0
local cipher="" tls_version handshake_secret="" res
local initial_msg_transcript msg_transcript finished_msg aad="" data=""
local handshake_traffic_keys key iv finished_key
local master_secret master_traffic_keys
[[ "$5" == true ]] && offer_compression=true
[[ "$6" == false ]] && close_connection=false
tls_low_byte="$1"
if [[ -n "$2" ]]; then # use supplied string in arg2 if there is one
cipher_list_2send="$2"
else # otherwise use std ciphers then
if [[ "$tls_low_byte" == 03 ]]; then
cipher_list_2send="$TLS12_CIPHER"
else
cipher_list_2send="$TLS_CIPHER"
fi
fi
code2network "$(tolower "$cipher_list_2send")" # convert CIPHER_SUITES to a "standardized" format
cipher_list_2send="$NW_STR"
debugme echo -en "\nsending client hello... "
prepare_tls_clienthello "$tls_low_byte" "$cipher_list_2send" "$process_full" "$4" "$offer_compression"
ret=$? # 6 means opening socket didn't succeed, e.g. timeout
# if sending didn't succeed we don't bother
if [[ $ret -eq 0 ]]; then
clienthello1="$TLS_CLIENT_HELLO"
sockread_serverhello 32768
"$TLS_DIFFTIME_SET" && TLS_NOW=$(LC_ALL=C date "+%s")
tls_hello_ascii=$(hexdump -v -e '16/1 "%02X"' "$SOCK_REPLY_FILE")
tls_hello_ascii="${tls_hello_ascii%%[!0-9A-F]*}"
tls_hello_ascii="${tls_hello_ascii%%140303000101}"
# Check if the response is a HelloRetryRequest.
original_clienthello="160301$(printf "%04x" "${#clienthello1}")$clienthello1"
resend_if_hello_retry_request "$original_clienthello" "$tls_hello_ascii"
ret=$?
if [[ $ret -eq 2 ]]; then
hrr="${tls_hello_ascii:10}"
tls_hello_ascii=$(hexdump -v -e '16/1 "%02X"' "$SOCK_REPLY_FILE")
tls_hello_ascii="${tls_hello_ascii%%[!0-9A-F]*}"
elif [[ $ret -eq 1 ]] || [[ $ret -eq 6 ]]; then
close_socket 5
TMPFILE=$SOCK_REPLY_FILE
tmpfile_handle ${FUNCNAME[0]}.dd
return $ret
fi
# The server's response may span more than one packet. If only the
# first part of the response needs to be processed, this isn't an
# issue. However, if the entire response needs to be processed or
# if the ephemeral key is needed (which comes last for TLS 1.2 and
# below), then we need to check if response appears to be complete,
# and if it isn't then try to get another packet from the server.
if [[ "$process_full" =~ all ]] || [[ "$process_full" == ephemeralkey ]]; then
hello_done=1; skip=true
fi
for (( 1 ; hello_done==1; 1 )); do
if ! "$skip"; then
if [[ $DEBUG -ge 1 ]]; then
sock_reply_file2=$(mktemp $TEMPDIR/ddreply.XXXXXX) || return 7
mv "$SOCK_REPLY_FILE" "$sock_reply_file2"
fi
debugme echo -n "requesting more server hello data... "
socksend "" $USLEEP_SND
sockread_serverhello 32768
next_packet=$(hexdump -v -e '16/1 "%02X"' "$SOCK_REPLY_FILE")
next_packet="${next_packet%%[!0-9A-F]*}"
if [[ ${#next_packet} -eq 0 ]]; then
# This shouldn't be necessary. However, it protects against
# getting into an infinite loop if the server has nothing
# left to send and check_tls_serverhellodone doesn't
# correctly catch it.
[[ $DEBUG -ge 1 ]] && mv "$sock_reply_file2" "$SOCK_REPLY_FILE"
hello_done=0
else
tls_hello_ascii+="$next_packet"
if [[ $DEBUG -ge 1 ]]; then
sock_reply_file3=$(mktemp $TEMPDIR/ddreply.XXXXXX) || return 7
mv "$SOCK_REPLY_FILE" "$sock_reply_file3"
mv "$sock_reply_file2" "$SOCK_REPLY_FILE"
cat "$sock_reply_file3" >> "$SOCK_REPLY_FILE"
rm "$sock_reply_file3"
fi
fi
fi
skip=false
if [[ $hello_done -eq 1 ]]; then
res="$(check_tls_serverhellodone "$tls_hello_ascii" "$process_full" "$cipher" "$handshake_secret" "$initial_msg_transcript")"
hello_done=$?
if [[ "$hello_done" -eq 0 ]] && [[ -n "$res" ]]; then
read -r msg_transcript tls_hello_ascii <<< "$res"
tls_hello_ascii="$(toupper "$tls_hello_ascii")"
fi
if [[ "$hello_done" -eq 3 ]]; then
hello_done=1; skip=true
debugme echo "reading server hello..."
parse_tls_serverhello "$tls_hello_ascii" "ephemeralkey"
ret=$?
if [[ "$ret" -eq 0 ]] || [[ "$ret" -eq 2 ]]; then
cipher=$(get_cipher "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
if [[ -n "$hrr" ]]; then
initial_msg_transcript="$(create-initial-transcript "$cipher" "$clienthello1" "$hrr" "$TLS_CLIENT_HELLO" "$TLS_SERVER_HELLO")"
else
initial_msg_transcript="$(create-initial-transcript "$cipher" "" "" "$TLS_CLIENT_HELLO" "$TLS_SERVER_HELLO")"
fi
handshake_secret="$(derive-handshake-secret "$cipher" "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")"
[[ $? -ne 0 ]] && hello_done=2
else
hello_done=2
fi
fi
fi
done
debugme echo "reading server hello..."
if [[ "$DEBUG" -ge 4 ]]; then
hexdump -C $SOCK_REPLY_FILE | head -6
echo
fi
parse_tls_serverhello "$tls_hello_ascii" "$process_full" "$cipher_list_2send"
save=$?
if "$close_connection" && [[ $save == 0 ]]; then
send_close_notify "$DETECTED_TLS_VERSION"
fi
if [[ $DEBUG -ge 2 ]]; then
# see https://secure.wand.net.nz/trac/libprotoident/wiki/SSL
lines=$(count_lines "$(hexdump -C "$SOCK_REPLY_FILE" 2>$ERRFILE)")
tm_out " ($lines lines returned) "
fi
if ! "$close_connection" && [[ $save == 0 ]] && \
[[ -n "$handshake_secret" ]] && [[ "$process_full" == all+ ]]; then
tls_version="$DETECTED_TLS_VERSION"
if [[ "${TLS_SERVER_HELLO:8:3}" == 7F1 ]]; then
tls_version="${TLS_SERVER_HELLO:8:4}"
elif [[ "$TLS_SERVER_HELLO" =~ 002B00027F1[0-9A-F] ]]; then
tls_version="${BASH_REMATCH:8:4}"
fi
[[ "${tls_version:0:2}" == 7F ]] && [[ 0x${tls_version:2:2} -lt 25 ]] && include_headers=false
handshake_traffic_keys="$(derive-handshake-traffic-keys "$cipher" "$handshake_secret" "$initial_msg_transcript" "client")"
read -r key iv finished_key <<< "$handshake_traffic_keys"
if [[ "$cipher" == *SHA256 ]]; then
finished_msg="14000020$(hmac-transcript "-sha256" "$finished_key" "$msg_transcript")"
else
finished_msg="14000030$(hmac-transcript "-sha384" "$finished_key" "$msg_transcript")"
fi
[[ "$cipher" =~ CCM_8 ]] && tag_len=8 || tag_len=16
aad="170303$(printf "%04X" "$(( ${#finished_msg}/2 + tag_len + 1 ))")"
if "$include_headers"; then
# The header information was added to additional data in TLSv1.3 draft 25.
finished_msg="$(sym-encrypt "$cipher" "$key" "$(get-nonce "$iv" 0)" "${finished_msg}16" "$aad")"
else
finished_msg="$(sym-encrypt "$cipher" "$key" "$(get-nonce "$iv" 0)" "${finished_msg}16" "")"
fi
finished_msg="$aad$finished_msg"
len=${#finished_msg}
for (( i=0; i < len; i+=2 )); do
data+=", ${finished_msg:i:2}"
done
debugme echo -e "\nsending finished..."
socksend_clienthello "${data}"
sleep $USLEEP_SND
# Compute application traffic keys and IVs.
master_secret="$(derive-master-secret "$cipher" "$handshake_secret")"
master_traffic_keys="$(derive-application-traffic-keys "$cipher" "$master_secret" "$msg_transcript" server)"
APP_TRAF_KEY_INFO="$tls_version $cipher $master_traffic_keys 0 "
master_traffic_keys="$(derive-application-traffic-keys "$cipher" "$master_secret" "$msg_transcript" client)"
APP_TRAF_KEY_INFO+="$master_traffic_keys 0"
# Some servers send new session tickets as soon as the handshake is complete.
[[ -s "$TEMPDIR/$NODEIP.parse_tls13_new_session_ticket.txt" ]] && \
rm "$TEMPDIR/$NODEIP.parse_tls13_new_session_ticket.txt"
receive_app_data
if [[ $? -eq 0 ]] && [[ $DEBUG -ge 2 ]]; then
[[ -s "$TEMPDIR/$NODEIP.parse_tls13_new_session_ticket.txt" ]] && \
echo -n "Ticket: " && cat "$TEMPDIR/$NODEIP.parse_tls13_new_session_ticket.txt"
[[ -s $TMPFILE ]] && echo -n "Unexpected response: " && cat "$TMPFILE"
fi
fi
# determine the return value for higher level, so that they can tell what the result is
if [[ $save -eq 1 ]] || [[ $lines -eq 1 ]]; then
ret=1 # NOT available
elif [[ $save -eq 3 ]]; then
# only for IMAP currently 'a002 NO Starttls'
ret=3
elif [[ $save -eq 8 ]]; then
# odd return, we just pass this from parse_tls_serverhello() back
ret=8
elif [[ $save -eq 4 ]]; then
# STARTTLS problem passing back
ret=4
else
if [[ 03$tls_low_byte -eq $DETECTED_TLS_VERSION ]]; then
ret=0 # protocol available, TLS version returned equal to the one send
else
debugme echo -n "protocol send: 0x03$tls_low_byte, returned: 0x$DETECTED_TLS_VERSION"
ret=2 # protocol NOT available, server downgraded to $DETECTED_TLS_VERSION
fi
fi
debugme echo
else
debugme echo "stuck on sending: $ret"
fi
"$close_connection" && close_socket 5
tmpfile_handle ${FUNCNAME[0]}.dd $SOCK_REPLY_FILE
return $ret
}
# Send application data over a TLS 1.3 channel that has already been created.
send_app_data() {
local plaintext="$1"
local tls_version cipher client_key client_iv server_key server_iv
local aad res data
local -i i client_seq server_seq tag_len len
local include_headers=true
read -r tls_version cipher server_key server_iv server_seq client_key client_iv client_seq <<< "$APP_TRAF_KEY_INFO"
[[ "${tls_version:0:2}" == 7F ]] && [[ 0x${tls_version:2:2} -lt 25 ]] && include_headers=false
[[ "$cipher" =~ CCM_8 ]] && tag_len=8 || tag_len=16
aad="170303$(printf "%04X" "$(( ${#plaintext}/2 + tag_len + 1 ))")"
if "$include_headers"; then
res="$(sym-encrypt "$cipher" "$client_key" "$(get-nonce "$client_iv" $client_seq)" "${plaintext}17" "$aad")"
else
res="$(sym-encrypt "$cipher" "$client_key" "$(get-nonce "$client_iv" $client_seq)" "${plaintext}17" "")"
fi
[[ $? -eq 0 ]] || return 1
client_seq+=1
APP_TRAF_KEY_INFO="$tls_version $cipher $server_key $server_iv $server_seq $client_key $client_iv $client_seq"
res="$aad$res"
len=${#res}
data=""
for (( i=0; i < len; i+=2 )); do
data+=",x${res:i:2}"
done
socksend "$data" $USLEEP_SND
}
# Receive application data from a TLS 1.3 channel that has already been created.
# arg1: true if only the first block of application data should be decrypted.
# This can save a lot of time if the server sends a lot a data (e.g., a
# big home page), but only the first part of the data is needed. However,
# no further data may be received over this connection as the message
# sequence number will not be correct.
receive_app_data() {
local plaintext=""
local tls_version cipher client_key client_iv server_key server_iv
local aad ciphertext="" res="" data
local -i client_seq server_seq len msg_len
local include_headers=true
local first_block_only=false
[[ "$1" == true ]] && first_block_only=true
read -r tls_version cipher server_key server_iv server_seq client_key client_iv client_seq <<< "$APP_TRAF_KEY_INFO"
[[ "${tls_version:0:2}" == 7F ]] && [[ 0x${tls_version:2:2} -lt 25 ]] && include_headers=false
sleep $USLEEP_REC
while true; do
len=${#ciphertext}
if [[ $len -ge 10 ]]; then
[[ "${ciphertext:0:5}" == 17030 ]] || break
msg_len=$((2*0x${ciphertext:6:4}))
fi
if [[ $len -lt 10 ]] || [[ $len -lt $((msg_len+10)) ]]; then
if "$FAST_SOCKET"; then
res="$(sockread_fast 32768)"
else
sockread_serverhello 32768
res="$(hexdump -v -e '16/1 "%02X"' "$SOCK_REPLY_FILE")"
fi
res="${res%%[!0-9A-F]*}"
[[ -z "$res" ]] && break
ciphertext+="$res"
continue
fi
"$include_headers" && aad="${ciphertext:0:10}" || aad=""
data="$(sym-decrypt "$cipher" "$server_key" "$(get-nonce "$server_iv" "$server_seq")" "${ciphertext:10:msg_len}" "$aad")"
[[ $? -eq 0 ]] || return 1
len=${#data}-2
while [[ "${data:len:2}" == 00 ]]; do
len=$((len-2))
done
content_type="${data:len:2}"
if [[ "$content_type" == 16 ]] && [[ "${data:0:2}" == 04 ]]; then
# This is a new_session_ticket
parse_tls13_new_session_ticket "$tls_version" "${data:0:len}"
elif [[ "$content_type" == 17 ]]; then
# This really is application data.
plaintext+="${data:0:len}"
"$first_block_only" && break
fi
ciphertext=${ciphertext:$((msg_len+10))}
server_seq+=1
[[ -z "$ciphertext" ]] && break
done
APP_TRAF_KEY_INFO="$tls_version $cipher $server_key $server_iv $server_seq $client_key $client_iv $client_seq"
hex2binary "$plaintext" > "$TMPFILE"
return 0
}
####### Vulnerabilities follow #######
# General overview which browser "supports" which vulnerability:
# https://en.wikipedia.org/wiki/Transport_Layer_Security#Web_browsers
# mainly adapted from https://gist.github.com/takeshixx/10107280
#
run_heartbleed(){
local tls_hexcode
local heartbleed_payload
local -i n lines_returned
local append=""
local tls_hello_ascii=""
local jsonID="heartbleed"
local cve="CVE-2014-0160"
local cwe="CWE-119"
local hint=""
[[ $VULN_COUNT -le $VULN_THRESHLD ]] && outln && pr_headlineln " Testing for heartbleed vulnerability " && outln
pr_bold " Heartbleed"; out " ($cve) "
if ( [[ "$STARTTLS_PROTOCOL" =~ ldap ]] || [[ "$STARTTLS_PROTOCOL" =~ irc ]] ); then
prln_local_problem "STARTTLS/$STARTTLS_PROTOCOL and --ssl-native collide here"
return 1
fi
[[ -z "$TLS_EXTENSIONS" ]] && determine_tls_extensions
if [[ ! "${TLS_EXTENSIONS}" =~ heartbeat ]]; then
pr_svrty_best "not vulnerable (OK)"
outln ", no heartbeat extension"
fileout "$jsonID" "OK" "not vulnerable, no heartbeat extension" "$cve" "$cwe"
return 0
fi
if [[ 0 -eq $(has_server_protocol tls1) ]]; then
tls_hexcode="x03, x01"
elif [[ 0 -eq $(has_server_protocol tls1_1) ]]; then
tls_hexcode="x03, x02"
elif [[ 0 -eq $(has_server_protocol tls1_2) ]]; then
tls_hexcode="x03, x03"
elif [[ 0 -eq $(has_server_protocol ssl3) ]]; then
tls_hexcode="x03, x00"
else # no protocol for some reason defined, determine TLS versions offered with a new handshake
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY") >$TMPFILE 2>$ERRFILE </dev/null
case "$(get_protocol $TMPFILE)" in
*1.2) tls_hexcode="x03, x03" ; add_proto_offered tls1_2 yes ;;
*1.1) tls_hexcode="x03, x02" ; add_proto_offered tls1_1 yes ;;
TLSv1) tls_hexcode="x03, x01" ; add_proto_offered tls1 yes ;;
SSLv3) tls_hexcode="x03, x00" ; add_proto_offered ssl3 yes ;;
esac
fi
debugme echo "using protocol $tls_hexcode"
heartbleed_payload=", x18, $tls_hexcode, x00, x03, x01, x40, x00"
tls_sockets "${tls_hexcode:6:2}" "" "ephemeralkey" "" "" "false"
[[ $DEBUG -ge 4 ]] && tmln_out "\nsending payload with TLS version $tls_hexcode:"
socksend "$heartbleed_payload" 1
sockread_serverhello 16384 $HEARTBLEED_MAX_WAITSOCK
if [[ $? -eq 3 ]]; then
append=", timed out"
pr_svrty_best "not vulnerable (OK)"; out "$append"
fileout "$jsonID" "OK" "not vulnerable $append" "$cve" "$cwe"
else
# server reply should be (>=SSLv3): 18030x in case of a heartBEAT reply -- which we take as a positive result
tls_hello_ascii=$(hexdump -v -e '16/1 "%02X"' "$SOCK_REPLY_FILE")
debugme echo "tls_content_type: ${tls_hello_ascii:0:2}"
debugme echo "tls_protocol: ${tls_hello_ascii:2:4}"
lines_returned=$(count_lines "$(hexdump -ve '16/1 "%02x " " \n"' "$SOCK_REPLY_FILE")")
debugme echo "lines HB reply: $lines_returned"
if [[ $DEBUG -ge 3 ]]; then
tmln_out "\nheartbleed reply: "
hexdump -C "$SOCK_REPLY_FILE" | head -20
[[ $lines_returned -gt 20 ]] && tmln_out "[...]"
tmln_out
fi
if [[ $lines_returned -gt 1 ]] && [[ "${tls_hello_ascii:0:4}" == 1803 ]]; then
if [[ "$STARTTLS_PROTOCOL" =~ ftp ]]; then
# check possibility of weird vsftpd reply, see #426, despite "1803" seems very unlikely...
if grep -q '500 OOPS' "$SOCK_REPLY_FILE" ; then
append=", successful weeded out vsftpd false positive"
pr_svrty_best "not vulnerable (OK)"; out "$append"
fileout "$jsonID" "OK" "not vulnerable $append" "$cve" "$cwe"
else
out "likely "
pr_svrty_critical "VULNERABLE (NOT ok)"
[[ $DEBUG -lt 3 ]] && tm_out ", use debug >=3 to confirm"
fileout "$jsonID" "CRITICAL" "VULNERABLE" "$cve" "$cwe" "$hint"
fi
else
pr_svrty_critical "VULNERABLE (NOT ok)"
fileout "$jsonID" "CRITICAL" "VULNERABLE" "$cve" "$cwe" "$hint"
set_grade_cap "F" "Vulnerable to Heartbleed"
fi
else
pr_svrty_best "not vulnerable (OK)"
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
fi
fi
outln
tmpfile_handle ${FUNCNAME[0]}.dd $SOCK_REPLY_FILE
close_socket 5
return 0
}
# helper function
ok_ids(){
prln_svrty_best "\n ok -- something reset our ccs packets"
return 0
}
# see https://www.openssl.org/news/secadv_20140605.txt
# mainly adapted from Ramon de C Valle's C code from https://gist.github.com/rcvalle/71f4b027d61a78c42607
#FIXME: At a certain point ccs needs to be changed and make use of code2network using a file, then tls_sockets
#
run_ccs_injection(){
local tls_hexcode ccs_message client_hello byte6
local -i retval ret=0
local tls_hello_ascii=""
local jsonID="CCS"
local cve="CVE-2014-0224"
local cwe="CWE-310"
local hint=""
[[ $VULN_COUNT -le $VULN_THRESHLD ]] && outln && pr_headlineln " Testing for CCS injection vulnerability " && outln
pr_bold " CCS"; out " ($cve) "
if ( [[ "$STARTTLS_PROTOCOL" =~ ldap ]] || [[ "$STARTTLS_PROTOCOL" =~ irc ]] ); then
prln_local_problem "STARTTLS/$STARTTLS_PROTOCOL and --ssl-native collide here"
return 1
fi
if [[ 0 -eq $(has_server_protocol tls1) ]]; then
tls_hexcode="x03, x01"
elif [[ 0 -eq $(has_server_protocol tls1_1) ]]; then
tls_hexcode="x03, x02"
elif [[ 0 -eq $(has_server_protocol tls1_2) ]]; then
tls_hexcode="x03, x03"
elif [[ 0 -eq $(has_server_protocol ssl3) ]]; then
tls_hexcode="x03, x00"
else # no protocol for some reason defined, determine TLS versions offered with a new handshake
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY") >$TMPFILE 2>$ERRFILE </dev/null
case "$(get_protocol $TMPFILE)" in
*1.2) tls_hexcode="x03, x03" ; add_proto_offered tls1_2 yes ;;
*1.1) tls_hexcode="x03, x02" ; add_proto_offered tls1_1 yes ;;
TLSv1) tls_hexcode="x03, x01" ; add_proto_offered tls1 yes ;;
SSLv3) tls_hexcode="x03, x00" ; add_proto_offered ssl3 yes ;;
esac
fi
debugme echo "using protocol $tls_hexcode"
ccs_message=", x14, $tls_hexcode ,x00, x01, x01"
client_hello="
# TLS header (5 bytes)
,x16, # content type (x16 for handshake)
x03, x01, # TLS version in record layer is always TLS 1.0 (except SSLv3)
x00, x93, # length
# Handshake header
x01, # type (x01 for ClientHello)
x00, x00, x8f, # length
$tls_hexcode, # TLS version
# Random (32 byte)
x53, x43, x5b, x90, x9d, x9b, x72, x0b,
xbc, x0c, xbc, x2b, x92, xa8, x48, x97,
xcf, xbd, x39, x04, xcc, x16, x0b, x85,
x03, x90, x9f, x77, x04, x33, xd4, xde,
x00, # session ID length
x00, x68, # cipher suites length
# Cipher suites (51 suites)
xc0, x13, xc0, x12, xc0, x11, xc0, x10,
xc0, x0f, xc0, x0e, xc0, x0d, xc0, x0c,
xc0, x0b, xc0, x0a, xc0, x09, xc0, x08,
xc0, x07, xc0, x06, xc0, x05, xc0, x04,
xc0, x03, xc0, x02, xc0, x01, x00, x39,
x00, x38, x00, x37, x00, x36, x00, x35, x00, x34,
x00, x33, x00, x32, x00, x31, x00, x30,
x00, x2f, x00, x16, x00, x15, x00, x14,
x00, x13, x00, x12, x00, x11, x00, x10,
x00, x0f, x00, x0e, x00, x0d, x00, x0c,
x00, x0b, x00, x0a, x00, x09, x00, x08,
x00, x07, x00, x06, x00, x05, x00, x04,
x00, x03, x00, x02, x00, x01, x01, x00"
fd_socket 5 || return 1
# we now make a standard handshake ...
debugme echo -n "sending client hello... "
socksend "$client_hello" 1
debugme echo "reading server hello... "
sockread_serverhello 32768
if [[ $DEBUG -ge 4 ]]; then
hexdump -C "$SOCK_REPLY_FILE" | head -20
tmln_out "[...]"
tm_out "\nsending payload #1 with TLS version $tls_hexcode: "
fi
rm "$SOCK_REPLY_FILE"
# ... and then send the a change cipher spec message
socksend "$ccs_message" 1 || ok_ids
sockread_serverhello 4096 $CCS_MAX_WAITSOCK
if [[ $DEBUG -ge 3 ]]; then
tmln_out "\n1st reply: "
hexdump -C "$SOCK_REPLY_FILE" | head -20
tmln_out
tm_out "sending payload #2 with TLS version $tls_hexcode: "
fi
rm "$SOCK_REPLY_FILE"
socksend "$ccs_message" 2 || ok_ids
sockread_serverhello 4096 $CCS_MAX_WAITSOCK
retval=$?
tls_hello_ascii=$(hexdump -v -e '16/1 "%02X"' "$SOCK_REPLY_FILE")
byte6="${tls_hello_ascii:12:2}"
debugme echo "tls_content_type: ${tls_hello_ascii:0:2} | tls_protocol: ${tls_hello_ascii:2:4} | byte6: $byte6"
if [[ $DEBUG -ge 3 ]]; then
tmln_out "\n2nd reply: "
hexdump -C "$SOCK_REPLY_FILE"
tmln_out
fi
# in general, see https://en.wikipedia.org/wiki/Transport_Layer_Security#Alert_protocol
# https://tools.ietf.org/html/rfc5246#section-7.2
#
# not ok for CCSI: 15 | 0301 | 00 02 | 02 15
# ALERT | TLS 1.0 | Length=2 | Decryption failed (21)
#
# ok: nothing: ==> RST
#
# 0A: Unexpected message
# 28: Handshake failure
if [[ -z "${tls_hello_ascii:0:12}" ]]; then
# empty reply
pr_svrty_best "not vulnerable (OK)"
if [[ $retval -eq 3 ]]; then
fileout "$jsonID" "OK" "not vulnerable (timed out)" "$cve" "$cwe"
else
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
fi
elif [[ "${tls_hello_ascii:0:4}" == "1503" ]]; then
if [[ ! "${tls_hello_ascii:5:2}" =~ [03|02|01|00] ]]; then
pr_warning "test failed "
out "no proper TLS repy (debug info: protocol sent: 1503${tls_hexcode#x03, x}, reply: ${tls_hello_ascii:0:14}"
fileout "$jsonID" "DEBUG" "test failed, around line $LINENO, debug info (${tls_hello_ascii:0:14})" "$cve" "$cwe" "$hint"
ret=1
elif [[ "$byte6" == "15" ]]; then
# decryption failed received
pr_svrty_critical "VULNERABLE (NOT ok)"
fileout "$jsonID" "CRITICAL" "VULNERABLE" "$cve" "$cwe" "$hint"
set_grade_cap "F" "Vulnerable to CCS injection"
elif [[ "$byte6" == "0A" ]] || [[ "$byte6" == "28" ]]; then
# Unexpected message / Handshake failure received
pr_warning "likely "
out "not vulnerable (OK)"
out " - alert description type: $byte6"
fileout "$jsonID" "WARN" "probably not vulnerable but received 0x${byte6} instead of 0x15" "$cve" "$cwe" "$hint"
elif [[ "$byte6" == "14" ]]; then
# bad_record_mac -- this is not "not vulnerable"
out "likely "
pr_svrty_critical "VULNERABLE (NOT ok)"
out ", suspicious \"bad_record_mac\" ($byte6)"
fileout "$jsonID" "CRITICAL" "likely VULNERABLE" "$cve" "$cwe" "$hint"
else
# other errors, see https://tools.ietf.org/html/rfc5246#section-7.2
out "likely "
pr_svrty_critical "VULNERABLE (NOT ok)"
out ", suspicious error code \"$byte6\" returned. Please report"
fileout "$jsonID" "CRITICAL" "likely VULNERABLE with $byte6" "$cve" "$cwe" "$hint"
fi
elif [[ $STARTTLS_PROTOCOL == "mysql" ]] && [[ "${tls_hello_ascii:14:12}" == "233038533031" ]]; then
# MySQL community edition (yaSSL) returns a MySQL error instead of a TLS Alert
# Error: #08S01 Bad handshake
pr_svrty_best "not vulnerable (OK)"
out ", looks like MySQL community edition (yaSSL)"
fileout "$jsonID" "OK" "not vulnerable (MySQL community edition (yaSSL) detected)" "$cve" "$cwe"
elif [[ "$byte6" == [0-9a-f][0-9a-f] ]] && [[ "${tls_hello_ascii:2:2}" != "03" ]]; then
pr_warning "test failed"
out ", probably read buffer too small (${tls_hello_ascii:0:14})"
fileout "$jsonID" "DEBUG" "test failed, probably read buffer too small (${tls_hello_ascii:0:14})" "$cve" "$cwe" "$hint"
ret=1
else
pr_warning "test failed "
out "around line $LINENO (debug info: ${tls_hello_ascii:0:12},$byte6)"
fileout "$jsonID" "DEBUG" "test failed, around line $LINENO, debug info (${tls_hello_ascii:0:12},$byte6)" "$cve" "$cwe" "$hint"
ret=1
fi
outln
tmpfile_handle ${FUNCNAME[0]}.dd $SOCK_REPLY_FILE
close_socket 5
return $ret
}
sub_session_ticket_tls() {
local tls_proto="$1"
local sessticket_tls=""
#FIXME: we likely have done this already before (either @ run_server_defaults() or at least the output
# from a previous handshake) --> would save 1x connect. We have TLS_TICKET but not yet the ticket itself #FIXME
#ATTENTION: we DO NOT use SNI here as we assume ticketbleed is a vulnerability of the TLS stack. If we'd do SNI here, we'd also need
# it in the ClientHello of run_ticketbleed() otherwise the ticket will be different and the whole thing won't work!
#
sessticket_tls="$($OPENSSL s_client $(s_client_options "$BUGS $tls_proto $PROXY -connect $NODEIP:$PORT") </dev/null 2>$ERRFILE | awk '/TLS session ticket:/,/^$/' | awk '!/TLS session ticket/')"
sessticket_tls="$(sed -e 's/^.* - /x/g' -e 's/ .*$//g' <<< "$sessticket_tls" | tr '\n' ',')"
sed -e 's/ /,x/g' -e 's/-/,x/g' <<< "$sessticket_tls"
}
# see https://blog.filippo.io/finding-ticketbleed/ | https://filippo.io/ticketbleed/
run_ticketbleed() {
local tls_hexcode tls_proto=""
local session_tckt_tls=""
local -i len_ch=300 # fixed len of prepared clienthello below
local sid="x00,x0B,xAD,xC0,xDE,x00," # some abitratry bytes
local len_sid="$(( ${#sid} / 4))"
local xlen_sid="$(dec02hex $len_sid)"
local -i len_tckt_tls=0 nr_sid_detected=0
local xlen_tckt_tls="" xlen_handshake_record_layer="" xlen_handshake_ssl_layer=""
local -i len_handshake_record_layer=0
local i
local -a memory sid_detected
local early_exit=true
local -i ret=0
local jsonID="ticketbleed"
local cve="CVE-2016-9244"
local cwe="CWE-200"
local hint=""
[[ -n "$STARTTLS" ]] && return 0
[[ $VULN_COUNT -le $VULN_THRESHLD ]] && outln && pr_headlineln " Testing for Ticketbleed vulnerability " && outln
pr_bold " Ticketbleed"; out " ($cve), experiment. "
if [[ "$SERVICE" != HTTP ]] && [[ "$CLIENT_AUTH" != required ]]; then
outln "-- (applicable only for HTTPS)"
fileout "$jsonID" "INFO" "not applicable, not HTTP" "$cve" "$cwe"
return 0
fi
# highly unlikely that it is NOT supported. We may loose time here but it's more solid
[[ -z "$TLS_EXTENSIONS" ]] && determine_tls_extensions
if [[ ! "${TLS_EXTENSIONS}" =~ "session ticket" ]]; then
pr_svrty_best "not vulnerable (OK)"
outln ", no session ticket extension"
fileout "$jsonID" "OK" "no session ticket extension" "$cve" "$cwe"
return 0
fi
if [[ 0 -eq $(has_server_protocol tls1) ]]; then
tls_hexcode="x03, x01"; tls_proto="-tls1"
elif [[ 0 -eq $(has_server_protocol tls1_1) ]]; then
tls_hexcode="x03, x02"; tls_proto="-tls1_1"
elif [[ 0 -eq $(has_server_protocol tls1_2) ]]; then
tls_hexcode="x03, x03"; tls_proto="-tls1_2"
elif [[ 0 -eq $(has_server_protocol ssl3) ]]; then
tls_hexcode="x03, x00"; tls_proto="-ssl3"
else # no protocol for some reason defined, determine TLS versions offered with a new handshake
"$HAS_TLS13" && tls_proto="-no_tls1_3"
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS $tls_proto -connect $NODEIP:$PORT $PROXY") >$TMPFILE 2>$ERRFILE </dev/null
case "$(get_protocol $TMPFILE)" in
*1.2) tls_hexcode="x03, x03"; tls_proto="-tls1_2" ; add_proto_offered tls1_2 yes ;;
*1.1) tls_hexcode="x03, x02"; tls_proto="-tls1_1" ; add_proto_offered tls1_1 yes ;;
TLSv1) tls_hexcode="x03, x01"; tls_proto="-tls1" ; add_proto_offered tls1 yes ;;
SSLv3) tls_hexcode="x03, x00"; tls_proto="-ssl3" ; add_proto_offered ssl3 yes ;;
esac
fi
debugme echo "using protocol $tls_hexcode"
session_tckt_tls="$(sub_session_ticket_tls "$tls_proto")"
if [[ "$session_tckt_tls" == "," ]]; then
pr_svrty_best "not vulnerable (OK)"
outln ", no session tickets"
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
debugme echo " session ticket TLS \"$session_tckt_tls\""
return 0
fi
len_tckt_tls=${#session_tckt_tls}
len_tckt_tls=$(( len_tckt_tls / 4))
xlen_tckt_tls="$(dec02hex $len_tckt_tls)"
len_handshake_record_layer="$(( len_sid + len_ch + len_tckt_tls ))"
xlen_handshake_record_layer="$(dec04hex "$len_handshake_record_layer")"
len_handshake_ssl_layer="$(( len_handshake_record_layer + 4 ))"
xlen_handshake_ssl_layer="$(dec04hex "$len_handshake_ssl_layer")"
if [[ "$DEBUG" -ge 4 ]]; then
echo "len_tckt_tls (hex): $len_tckt_tls ($xlen_tckt_tls)"
echo "sid: $sid"
echo "len_sid (hex) $len_sid ($xlen_sid)"
echo "len_handshake_record_layer: $len_handshake_record_layer ($xlen_handshake_record_layer)"
echo "len_handshake_ssl_layer: $len_handshake_ssl_layer ($xlen_handshake_ssl_layer)"
echo "session_tckt_tls: $session_tckt_tls"
fi
client_hello="
# TLS header (5 bytes)
,x16, # Content type (x16 for handshake)
x03,x01, # TLS version record layer
# Length Secure Socket Layer follows:
$xlen_handshake_ssl_layer,
# Handshake header
x01, # Type (x01 for ClientHello)
# Length of ClientHello follows:
x00, $xlen_handshake_record_layer,
$tls_hexcode, # TLS Version
# Random (32 byte) Unix time etc, see www.moserware.com/2009/06/first-few-milliseconds-of-https.html
xee, xee, x5b, x90, x9d, x9b, x72, x0b,
xbc, x0c, xbc, x2b, x92, xa8, x48, x97,
xcf, xbd, x39, x04, xcc, x16, x0b, x85,
x03, x90, x9f, x77, x04, x33, xff, xff,
$xlen_sid, # Session ID length
$sid
x00, x6a, # Cipher suites length 106
# 53 Cipher suites
xc0,x14, xc0,x13, xc0,x0a, xc0,x21,
x00,x39, x00,x38, x00,x88, x00,x87,
xc0,x0f, xc0,x05, x00,x35, x00,x84,
xc0,x12, xc0,x08, xc0,x1c, xc0,x1b,
x00,x16, x00,x13, xc0,x0d, xc0,x03,
x00,x0a, xc0,x13, xc0,x09, xc0,x1f,
xc0,x1e, x00,x33, x00,x32, x00,x9a,
x00,x99, x00,x45, x00,x44, xc0,x0e,
xc0,x04, x00,x2f, x00,x96, x00,x41,
xc0,x11, xc0,x07, xc0,x0c, xc0,x02,
x00,x05, x00,x04, x00,x15, x00,x12,
xc0,x30, xc0,x2f, x00,x9d, x00,x9c,
x00,x3d, x00,x3c, x00,x9f, x00,x9e,
x00,xff,
x01, # Compression methods length
x00, # Compression method (x00 for NULL)
x01,x5b, # Extensions length ####### 10b + x14 + x3c
# Extension Padding
x00,x15,
# length:
x00,x38,
x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00,
x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00,
x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00, x00,x00,
# Extension: ec_point_formats
x00,x0b,
# length:
x00,x04,
# data:
x03,x00, x01,x02,
# Extension: elliptic_curves
x00,x0a,
# length
x00,x34,
x00,x32,
# data:
x00,x0e, x00,x0d, x00,x19, x00,x0b, x00,x0c,
x00,x18, x00,x09, x00,x0a, x00,x16,
x00,x17, x00,x08, x00,x06, x00,x07,
x00,x14, x00,x15, x00,x04, x00,x05,
x00,x12, x00,x13, x00,x01, x00,x02,
x00,x03, x00,x0f, x00,x10, x00,x11,
# Extension: Signature Algorithms
x00,x0d,
# length:
x00,x10,
# data:
x00,x0e ,x04,x01, x05,x01 ,x02,x01, x04,x03, x05,x03,
x02,x03, x02,x02,
# Extension: SessionTicket TLS
x00, x23,
# length of SessionTicket TLS
x00, $xlen_tckt_tls,
# data, Session Ticket
$session_tckt_tls # here we have the comma already
# Extension: Heartbeat
x00, x0f, x00, x01, x01"
# we do 3 client hellos, then see whether different memory is returned
for i in 1 2 3; do
fd_socket 5 || return 6
debugme echo -n "sending client hello... "
socksend "$client_hello" 0
debugme echo "reading server hello (ticketbleed reply)... "
if "$FAST_SOCKET"; then
tls_hello_ascii=$(sockread_fast 32768)
else
sockread_serverhello 32768 $CCS_MAX_WAITSOCK
tls_hello_ascii=$(hexdump -v -e '16/1 "%02X"' "$SOCK_REPLY_FILE")
fi
[[ "$DEBUG" -ge 5 ]] && echo "$tls_hello_ascii"
if [[ "$DEBUG" -ge 4 ]]; then
echo "============================="
echo "$tls_hello_ascii"
echo "============================="
fi
if [[ "${tls_hello_ascii:0:2}" == 15 ]]; then
debugme echo -n "TLS Alert ${tls_hello_ascii:10:4} (TLS version: ${tls_hello_ascii:2:4}) -- "
pr_svrty_best "not vulnerable (OK)"
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
send_close_notify "${tls_hello_ascii:18:4}"
close_socket 5
break
elif [[ -z "${tls_hello_ascii:0:2}" ]]; then
pr_svrty_best "not vulnerable (OK)"
out ", reply empty"
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
send_close_notify "${tls_hello_ascii:18:4}"
close_socket 5
break
elif [[ "${tls_hello_ascii:0:2}" == 16 ]]; then
early_exit=false
debugme echo -n "Handshake (TLS version: ${tls_hello_ascii:2:4}), "
if [[ "${tls_hello_ascii:10:6}" == 020000 ]]; then
debugme echo -n "ServerHello -- "
else
debugme echo -n "Message type: ${tls_hello_ascii:10:6} -- "
fi
sid_input=$(sed -e 's/x//g' -e 's/,//g' <<< "$sid")
sid_detected[i]="${tls_hello_ascii:88:32}"
memory[i]="${tls_hello_ascii:$((88+ len_sid*2)):$((32 - len_sid*2))}"
if [[ "$DEBUG" -ge 3 ]]; then
echo
echo "TLS version, record layer: ${tls_hello_ascii:18:4}"
echo "Session ID: ${sid_detected[i]}"
echo "memory: ${memory[i]}"
echo -n "$sid_input in SID: " ;
[[ "${sid_detected[i]}" =~ $sid_input ]] && echo "yes" || echo "no"
fi
[[ "$DEBUG" -ge 1 ]] && echo $tls_hello_ascii >$TEMPDIR/${FUNCNAME[0]}.tls_hello_ascii${i}.txt
else
ret=1
pr_warning "test failed"
out " around line $LINENO (debug info: ${tls_hello_ascii:0:2}, ${tls_hello_ascii:2:10})"
fileout "$jsonID" "DEBUG" "test failed, around $LINENO (debug info: ${tls_hello_ascii:0:2}, ${tls_hello_ascii:2:10})" "$cve" "$cwe"
send_close_notify "${tls_hello_ascii:18:4}"
close_socket 5
break
fi
send_close_notify "${tls_hello_ascii:18:4}"
close_socket 5
done
if ! "$early_exit"; then
# here we test the replies if a TLS server hello was received >1x
for i in 1 2 3 ; do
if [[ "${sid_detected[i]}" =~ $sid_input ]]; then
# was our faked TLS SID returned?
nr_sid_detected+=1
fi
done
if [[ $nr_sid_detected -eq 3 ]]; then
if [[ ${memory[1]} != ${memory[2]} ]] && [[ ${memory[2]} != ${memory[3]} ]]; then
pr_svrty_critical "VULNERABLE (NOT ok)"
fileout "$jsonID" "CRITICAL" "VULNERABLE" "$cve" "$cwe" "$hint"
set_grade_cap "F" "Vulnerable to Ticketbleed"
else
pr_svrty_best "not vulnerable (OK)"
out ", session IDs were returned but potential memory fragments do not differ"
fileout "$jsonID" "OK" "not vulnerable, returned potential memory fragments do not differ" "$cve" "$cwe"
fi
else
if [[ "$DEBUG" -ge 2 ]]; then
echo
pr_warning "test failed, non reproducible results!"
else
pr_warning "test failed, non reproducible results!"
out " Please run again w \"--debug=2\" (# of faked TLS SIDs detected: $nr_sid_detected)"
fi
fileout "$jsonID" "DEBUG" "test failed, non reproducible results. $nr_sid_detected TLS Session IDs $nr_sid_detected, ${sid_detected[1]},${sid_detected[2]},${sid_detected[3]}" "$cve" "$cwe"
ret=1
fi
fi
outln
return $ret
}
# Overview @ http://www.exploresecurity.com/wp-content/uploads/custom/SSL_manual_cheatsheet.html
#
run_renego() {
local legacycmd="" proto="$OPTIMAL_PROTO"
local sec_renego sec_client_renego
local -i ret=0
local cve=""
local cwe="CWE-310"
local hint=""
local jsonID=""
local ssl_reneg_attempts=$SSL_RENEG_ATTEMPTS
# No SNI needed here as there won't be two different SSL stacks for one IP
"$HAS_TLS13" && [[ -z "$proto" ]] && proto="-no_tls1_3"
[[ $VULN_COUNT -le $VULN_THRESHLD ]] && outln && pr_headlineln " Testing for Renegotiation vulnerabilities " && outln
pr_bold " Secure Renegotiation (RFC 5746) "
jsonID="secure_renego"
if "$TLS13_ONLY"; then
# https://www.openssl.org/blog/blog/2018/02/08/tlsv1.3/
pr_svrty_best "not vulnerable (OK)"
[[ $DEBUG -ge 1 ]] && out ", no renegotiation support in TLS 1.3 only servers"
outln
fileout "$jsonID" "OK" "TLS 1.3 only server" "$cve" "$cwe"
else
# first fingerprint for the Line "Secure Renegotiation IS NOT" or "Secure Renegotiation IS "
$OPENSSL s_client $(s_client_options "$proto $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY") 2>&1 </dev/null >$TMPFILE 2>$ERRFILE
if sclient_connect_successful $? $TMPFILE; then
grep -iaq "Secure Renegotiation IS NOT" $TMPFILE
sec_renego=$? # 0= Secure Renegotiation IS NOT supported
# grep -iaq "Secure Renegotiation IS supported"
#FIXME: didn't occur to me yet but why not also to check on "Secure Renegotiation IS supported"
case $sec_renego in
0) prln_svrty_critical "Not supported / VULNERABLE (NOT ok)"
fileout "$jsonID" "CRITICAL" "VULNERABLE" "$cve" "$cwe" "$hint"
set_grade_warning "Secure renegotiation is not supported"
;;
1) prln_svrty_best "supported (OK)"
fileout "$jsonID" "OK" "supported" "$cve" "$cwe"
;;
*) prln_warning "FIXME (bug): $sec_renego"
fileout "$jsonID" "WARN" "FIXME (bug) $sec_renego" "$cve" "$cwe"
;;
esac
else
prln_warning "OpenSSL handshake didn't succeed"
fileout "$jsonID" "WARN" "OpenSSL handshake didn't succeed" "$cve" "$cwe"
fi
fi
# FIXME: Basically this can be done with sockets and we might have that information already
# see https://tools.ietf.org/html/rfc5746#section-3.4: 'The client MUST include either an empty "renegotiation_info"
# extension, or the TLS_EMPTY_RENEGOTIATION_INFO_SCSV signaling cipher suite value in the ClientHello. [..]
# When a ServerHello is received, the client MUST check if it includes the "renegotiation_info" extension:
# If the extension is not present, the server does not support secure renegotiation'
pr_bold " Secure Client-Initiated Renegotiation "
jsonID="secure_client_renego"
cve="CVE-2011-1473"
# see: https://blog.qualys.com/ssllabs/2011/10/31/tls-renegotiation-and-denial-of-service-attacks
# https://blog.ivanristic.com/2009/12/testing-for-ssl-renegotiation.html -- head/get doesn't seem to be needed though
# https://archive.fo/20130415224936/http://www.thc.org/thc-ssl-dos/
# https://vincent.bernat.ch/en/blog/2011-ssl-dos-mitigation
case "$OSSL_VER" in
0.9.8*) # we need this for Mac OSX unfortunately
case "$OSSL_VER_APPENDIX" in
[a-l])
prln_local_problem " Your $OPENSSL cannot test this secure renegotiation vulnerability"
fileout "$jsonID" "WARN" "your $OPENSSL cannot test this secure renegotiation vulnerability" "$cve" "$cwe"
return 1
;;
[m-z])
;; # all ok
esac
;;
1.0.1*|1.0.2*)
legacycmd="-legacy_renegotiation"
;;
0.9.9*|1.0*|1.1*)
;; # all ok
esac
if "$TLS13_ONLY"; then
pr_svrty_best "not vulnerable (OK)"
[[ $DEBUG -ge 1 ]] && out ", no renegotiation support in TLS 1.3 only servers"
outln
fileout "$jsonID" "OK" "not vulnerable, TLS 1.3 only" "$cve" "$cwe"
elif [[ "$CLIENT_AUTH" == required ]]; then
prln_warning "client x509-based authentication prevents this from being tested"
fileout "$jsonID" "WARN" "client x509-based authentication prevents this from being tested"
sec_client_renego=1
else
# We need up to two tries here, as some LiteSpeed servers don't answer on "R" and block. Thus first try in the background
# msg enables us to look deeper into it while debugging
echo R | $OPENSSL s_client $(s_client_options "$proto $BUGS $legacycmd $STARTTLS -connect $NODEIP:$PORT $PROXY") >$TMPFILE 2>>$ERRFILE &
wait_kill $! $HEADER_MAXSLEEP
if [[ $? -eq 3 ]]; then
pr_svrty_good "likely not vulnerable (OK)"; outln ", timed out" # it hung
fileout "$jsonID" "OK" "likely not vulnerable (timed out)" "$cve" "$cwe"
sec_client_renego=1
else
# second try in the foreground as we are sure now it won't hang
echo R | $OPENSSL s_client $(s_client_options "$proto $legacycmd $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY") >$TMPFILE 2>>$ERRFILE
sec_client_renego=$?
# 0 means client is renegotiating & doesn't return an error --> vuln!
# 1 means client tried to renegotiating but the server side errored then. You still see RENEGOTIATING in the output
if tail -5 $TMPFILE| grep -qa '^closed'; then
# Exemption from above: server closed the connection but return value was zero
# See https://github.com/drwetter/testssl.sh/issues/1725 and referenced issue @haproxy
sec_client_renego=1
fi
case "$sec_client_renego" in
0) # We try again if server is HTTP. This could be either a node.js server or something else.
# Mitigations (default values) for:
# - node.js allows 3x R and then blocks. So then 4x should be tested.
# - F5 BIG-IP ADS allows 5x R and then blocks. So then 6x should be tested.
# This way we save a couple seconds as we weeded out the ones which are more robust
# Amount of times tested before breaking is set in SSL_RENEG_ATTEMPTS.
if [[ $SERVICE != HTTP ]]; then
pr_svrty_medium "VULNERABLE (NOT ok)"; outln ", potential DoS threat"
fileout "$jsonID" "MEDIUM" "VULNERABLE, potential DoS threat" "$cve" "$cwe" "$hint"
else
(for ((i=0; i < ssl_reneg_attempts; i++ )); do echo R; sleep 1; done) | \
$OPENSSL s_client $(s_client_options "$proto $legacycmd $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY") >$TMPFILE 2>>$ERRFILE
case $? in
0) pr_svrty_high "VULNERABLE (NOT ok)"; outln ", DoS threat ($ssl_reneg_attempts attempts)"
fileout "$jsonID" "HIGH" "VULNERABLE, DoS threat" "$cve" "$cwe" "$hint"
;;
1) pr_svrty_good "not vulnerable (OK)"; outln " -- mitigated (disconnect within $ssl_reneg_attempts)"
fileout "$jsonID" "OK" "not vulnerable, mitigated" "$cve" "$cwe"
;;
*) prln_warning "FIXME (bug): $sec_client_renego ($ssl_reneg_attempts tries)"
fileout "$jsonID" "DEBUG" "FIXME (bug $ssl_reneg_attempts tries) $sec_client_renego" "$cve" "$cwe"
ret=1
;;
esac
fi
;;
1)
prln_svrty_good "not vulnerable (OK)"
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
;;
*)
prln_warning "FIXME (bug): $sec_client_renego"
fileout "$jsonID" "DEBUG" "FIXME (bug) $sec_client_renego - Please report" "$cve" "$cwe"
ret=1
;;
esac
fi
fi
#pr_bold " Insecure Client-Initiated Renegotiation " # pre-RFC 5746, CVE-2009-3555
#jsonID="insecure_client_renego"
#
# https://www.openssl.org/news/vulnerabilities.html#y2009. It can only be tested with OpenSSL <=0.9.8k
# Insecure Client-Initiated Renegotiation is missing ==> sockets. When we complete the handshake ;-)
tmpfile_handle ${FUNCNAME[0]}.txt
return $ret
}
run_crime() {
local -i ret=0 sclient_success
local addcmd=""
local cve="CVE-2012-4929"
local cwe="CWE-310"
local hint=""
# In a nutshell: don't offer TLS/SPDY compression. This tests for CRIME Vulnerability on HTTPS only,
# not SPDY or ALPN (yet). Please note that it is an attack where you need client side control, so in
# regular situations this # means anyway "game over", with or without CRIME.
#
# https://blog.qualys.com/ssllabs/2012/09/14/crime-information-leakage-attack-against-ssltls
[[ $VULN_COUNT -le $VULN_THRESHLD ]] && outln && pr_headlineln " Testing for CRIME vulnerability " && outln
pr_bold " CRIME, TLS " ; out "($cve) "
if "$TLS13_ONLY"; then
pr_svrty_best "not vulnerable (OK)"
[[ $DEBUG -ge 1 ]] && out ", no compression in TLS 1.3 only servers"
outln
fileout "$jsonID" "OK" "TLS 1.3 only server" "$cve" "$cwe"
return 0
fi
if ! "$HAS_ZLIB"; then
if "$SSL_NATIVE"; then
prln_local_problem "$OPENSSL lacks zlib support"
fileout "CRIME_TLS" "WARN" "CRIME, TLS: Not tested. $OPENSSL lacks zlib support" "$cve" "$cwe"
return 1
else
tls_sockets "03" "$TLS12_CIPHER" "" "" "true"
sclient_success=$?
[[ $sclient_success -eq 2 ]] && sclient_success=0
[[ $sclient_success -eq 0 ]] && cp "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" $TMPFILE
fi
else
[[ "$OSSL_VER" == 0.9.8* ]] && addcmd="-no_ssl2"
"$HAS_TLS13" && [[ -z "$OPTIMAL_PROTO" ]] && addcmd+=" -no_tls1_3"
$OPENSSL s_client $(s_client_options "$OPTIMAL_PROTO $BUGS -comp $addcmd $STARTTLS -connect $NODEIP:$PORT $PROXY $SNI") </dev/null &>$TMPFILE
sclient_connect_successful $? $TMPFILE
sclient_success=$?
fi
if [[ $sclient_success -ne 0 ]]; then
pr_warning "test failed (couldn't connect)"
fileout "CRIME_TLS" "WARN" "Check failed, couldn't connect" "$cve" "$cwe"
ret=1
elif grep -a Compression $TMPFILE | grep -aq NONE >/dev/null; then
pr_svrty_good "not vulnerable (OK)"
if [[ $SERVICE != HTTP ]] && [[ "$CLIENT_AUTH" != required ]]; then
out " (not using HTTP anyway)"
fileout "CRIME_TLS" "OK" "not vulnerable (not using HTTP anyway)" "$cve" "$cwe"
else
fileout "CRIME_TLS" "OK" "not vulnerable" "$cve" "$cwe"
fi
else
if [[ $SERVICE == HTTP ]] || [[ "$CLIENT_AUTH" == required ]]; then
pr_svrty_high "VULNERABLE (NOT ok)"
fileout "CRIME_TLS" "HIGH" "VULNERABLE" "$cve" "$cwe" "$hint"
else
pr_svrty_medium "VULNERABLE but not using HTTP: probably no exploit known"
fileout "CRIME_TLS" "MEDIUM" "VULNERABLE, but not using HTTP. Probably no exploit known" "$cve" "$cwe" "$hint"
# not clear whether a protocol != HTTP offers the ability to repeatedly modify the input
# which is done e.g. via javascript in the context of HTTP
fi
set_grade_cap "C" "Vulnerable to CRIME"
fi
outln
# this needs to be re-done i order to remove the redundant check for spdy
# weed out starttls, spdy-crime is a web thingy
# if [[ "x$STARTTLS" != "x" ]]; then
# echo
# return $ret
# fi
# weed out non-webports, spdy-crime is a web thingy. there's a catch thoug, you see it?
# case $PORT in
# 25|465|587|80|110|143|993|995|21)
# echo
# return $ret
# esac
# if "$HAS_NPN"; then
# $OPENSSL s_client -host $NODE -port $PORT -nextprotoneg $NPN_PROTOs $SNI </dev/null 2>/dev/null >$TMPFILE
# if [[ $? -eq 0 ]]; then
# echo
# pr_bold "CRIME Vulnerability, SPDY " ; outln "($cve): "
# STR=$(grep Compression $TMPFILE )
# if echo $STR | grep -q NONE >/dev/null; then
# pr_svrty_best "not vulnerable (OK)"
# ret=$((ret + 0))
# else
# pr_svrty_critical "VULNERABLE (NOT ok)"
# ret=$((ret + 1))
# fi
# fi
# fi
# [[ $DEBUG -ge 2 ]] tmln_out "$STR"
tmpfile_handle ${FUNCNAME[0]}.txt
return $ret
}
# As the name says. It expects as arg1 a GET command string. It returns 1
# when GET command was stalled or killed (which is no not always used)
# and echos "warn_*". It return 0 when everything went ok and echos the
# compression if any.
sub_breach_helper() {
local get_command="$1"
local detected_compression=""
local -i was_killed=0
safe_echo "$get_command" | $OPENSSL s_client $(s_client_options "$OPTIMAL_PROTO $BUGS -quiet -ign_eof -connect $NODEIP:$PORT $PROXY $SNI") 1>$TMPFILE 2>$ERRFILE &
wait_kill $! $HEADER_MAXSLEEP
was_killed=$? # !=0 when it was killed
detected_compression=$(grep -ia ^Content-Encoding: $TMPFILE)
detected_compression="$(strip_lf "$detected_compression")"
detected_compression="${detected_compression#*:}"
detected_compression="$(strip_spaces "$detected_compression")"
if [[ ! -s $TMPFILE ]]; then
if [[ $was_killed -eq 0 ]]; then
echo "warn_stalled"
else
echo "warn_killed"
fi
return 1
elif [[ -z $detected_compression ]]; then
echo "no_compression"
else
echo "$detected_compression"
fi
return 0
}
# BREACH is a HTTP-level compression & an attack which works against any cipher suite and is agnostic to the
# version of TLS/SSL, more: http://www.breachattack.com/ . External referrers are the important thing here!
# Mitigation: see https://community.qualys.com/message/20360
# Any URL can be vulnerable. Here only the given URL is tested. See also $when_makesense
#
run_breach() {
local header
local -i ret=0
local referer useragent
local url="$1"
local spaces=" "
local disclaimer=""
local when_makesense=" Can be ignored for static pages or if no secrets in the page"
local cve="CVE-2013-3587"
local cwe="CWE-310"
local hint="" c=""
local jsonID="BREACH"
local compressions="gzip deflate compress br"
local has_compression=()
local detected_compression=""
local get_command=""
[[ $SERVICE != HTTP ]] && [[ "$CLIENT_AUTH" != required ]] && return 7
[[ $VULN_COUNT -le $VULN_THRESHLD ]] && outln && pr_headlineln " Testing for BREACH (HTTP compression) vulnerability " && outln
pr_bold " BREACH"; out " ($cve) "
if [[ "$CLIENT_AUTH" == required ]]; then
prln_warning "client x509-based authentication prevents this from being tested"
fileout "$jsonID" "WARN" "client x509-based authentication prevents this from being tested" "$cve" "$cwe"
return 7
fi
[[ -z "$url" ]] && url="/"
disclaimer=" - only supplied \"$url\" tested"
referer="https://google.com/"
[[ "$NODE" =~ google ]] && referer="https://yandex.ru/" # otherwise we have a false positive for google.com
useragent="$UA_STD"
$SNEAKY && useragent="$UA_SNEAKY"
# Assemble the GET command with all available compressions and send them all, initially.
# If the result is negative: we can just tell the finding and return. If it's
# positive: We already have identified 1x compression
get_command="GET $url HTTP/1.1\r\nHost: $NODE\r\nUser-Agent: $useragent\r\nReferer: $referer\r\nConnection: Close\r\nAccept-encoding: ${compressions// /,}\r\nAccept: text/*\r\n\r\n"
detected_compression=$(sub_breach_helper "$get_command")
case "$detected_compression" in
warn_stalled)
pr_warning "First request failed (HTTP header request stalled and was terminated)"
fileout "$jsonID" "WARN" "Test failed as first HTTP request stalled and was terminated" "$cve" "$cwe"
ret=1
;;
warn_failed)
pr_warning "First request failed (HTTP header request was empty)"
fileout "$jsonID" "WARN" "Test failed as first HTTP response was empty" "$cve" "$cwe"
ret=1
;;
no_compression)
pr_svrty_good "no gzip/deflate/compress/br HTTP compression (OK) "
outln "$disclaimer"
fileout "$jsonID" "OK" "not vulnerable, no gzip/deflate/compress/br HTTP compression $disclaimer" "$cve" "$cwe"
ret=0
;;
*) # Now assemble the remaining compressions in $compressions and loop through them
has_compression+=("$detected_compression:yes")
compressions="${compressions//$detected_compression/}"
for c in $compressions; do
get_command="GET $url HTTP/1.1\r\nHost: $NODE\r\nUser-Agent: $useragent\r\nReferer: $referer\r\nConnection: Close\r\nAccept-encoding: ${c}\r\nAccept: text/*\r\n\r\n"
detected_compression=$(sub_breach_helper "$get_command")
if [[ $? -ne 0 ]]; then
# This failure unlikely here. The initial request must have succeeded and this one then
# failed but we'd rather treat this correctly (e.d. IDS which triggers later). Not also
# we exit on the first stalled request. So if the first one with all compressions failed,
# we don't get here. It seems very unlikely the first failed and subsequent will succeed.
has_compression+=("$c:$compressions")
elif [[ "$detected_compression" =~ no_compression ]]; then
has_compression+=("$c:no")
debugme echo "has_compression: $c: no"
elif [[ -n "$detected_compression" ]]; then
has_compression+=("$c:yes")
debugme echo "has_compression: $c: yes"
else
prln_fixme "strange reply around line $((LINENO)) from sub_breach_helper()"
fi
done
# Final verdict (if not happened preemptively before). We reuse $detected_compression here
detected_compression=""
if [[ ${has_compression[@]} =~ warn ]]; then
# warn_empty / warn_stalled
if [[ ${has_compression[@]} =~ warn_empty ]]; then
pr_warning "At least 1/4 checks failed (HTTP header request was empty, debug: ${has_compression[@]}"
out ", debug: ${has_compression[@]})"
fileout "$jsonID" "WARN" "Test failed as HTTP response was empty, debug: ${has_compression[@]}" "$cve" "$cwe"
else # warn_stalled
pr_warning "At least 1/4 checks failed (HTTP header request stalled and was terminated"
out ", debug: ${has_compression[@]})"
fileout "$jsonID" "WARN" "Test failed as HTTP request stalled and was terminated" "$cve" "$cwe"
fi
else
for c in ${has_compression[@]}; do
if [[ $c =~ yes ]]; then
detected_compression+="${c%:*} "
fi
done
detected_compression="$(strip_trailing_space "$detected_compression")"
pr_svrty_medium "potentially NOT ok, \"$detected_compression\" HTTP compression detected."
outln "$disclaimer"
outln "${spaces}${when_makesense}"
fileout "$jsonID" "MEDIUM" "potentially VULNERABLE, $detected_compression HTTP compression detected $disclaimer" "$cve" "$cwe" "$hint"
fi
debugme outln "${spaces}has_compression: ${has_compression[@]}"
;;
esac
tmpfile_handle ${FUNCNAME[0]}.txt
return $ret
}
# SWEET32 (https://sweet32.info/). Birthday attacks on 64-bit block ciphers.
# In a nutshell: don't use 3DES ciphers anymore (DES, RC2 and IDEA too).
# Please note as opposed to RC4 (stream cipher) RC2 is a block cipher.
#
run_sweet32() {
local -i sclient_success=1
local sweet32_ciphers="IDEA-CBC-SHA:IDEA-CBC-MD5:RC2-CBC-MD5:KRB5-IDEA-CBC-SHA:KRB5-IDEA-CBC-MD5:ECDHE-RSA-DES-CBC3-SHA:ECDHE-ECDSA-DES-CBC3-SHA:SRP-DSS-3DES-EDE-CBC-SHA:SRP-RSA-3DES-EDE-CBC-SHA:SRP-3DES-EDE-CBC-SHA:EDH-RSA-DES-CBC3-SHA:EDH-DSS-DES-CBC3-SHA:DH-RSA-DES-CBC3-SHA:DH-DSS-DES-CBC3-SHA:AECDH-DES-CBC3-SHA:ADH-DES-CBC3-SHA:ECDH-RSA-DES-CBC3-SHA:ECDH-ECDSA-DES-CBC3-SHA:DES-CBC3-SHA:DES-CBC3-MD5:DES-CBC3-SHA:RSA-PSK-3DES-EDE-CBC-SHA:PSK-3DES-EDE-CBC-SHA:KRB5-DES-CBC3-SHA:KRB5-DES-CBC3-MD5:ECDHE-PSK-3DES-EDE-CBC-SHA:DHE-PSK-3DES-EDE-CBC-SHA:DES-CFB-M1:EXP1024-DHE-DSS-DES-CBC-SHA:EDH-RSA-DES-CBC-SHA:EDH-DSS-DES-CBC-SHA:DH-RSA-DES-CBC-SHA:DH-DSS-DES-CBC-SHA:ADH-DES-CBC-SHA:EXP1024-DES-CBC-SHA:DES-CBC-SHA:EXP1024-RC2-CBC-MD5:DES-CBC-MD5:DES-CBC-SHA:KRB5-DES-CBC-SHA:KRB5-DES-CBC-MD5:EXP-EDH-RSA-DES-CBC-SHA:EXP-EDH-DSS-DES-CBC-SHA:EXP-ADH-DES-CBC-SHA:EXP-DES-CBC-SHA:EXP-RC2-CBC-MD5:EXP-RC2-CBC-MD5:EXP-KRB5-RC2-CBC-SHA:EXP-KRB5-DES-CBC-SHA:EXP-KRB5-RC2-CBC-MD5:EXP-KRB5-DES-CBC-MD5:EXP-DH-DSS-DES-CBC-SHA:EXP-DH-RSA-DES-CBC-SHA"
local sweet32_ciphers_hex="00,07, 00,21, 00,25, c0,12, c0,08, c0,1c, c0,1b, c0,1a, 00,16, 00,13, 00,10, 00,0d, c0,17, 00,1b, c0,0d, c0,03, 00,0a, 00,93, 00,8b, 00,1f, 00,23, c0,34, 00,8f, fe,ff, ff,e0, 00,63, 00,15, 00,12, 00,0f, 00,0c, 00,1a, 00,62, 00,09, 00,61, 00,1e, 00,22, fe,fe, ff,e1, 00,14, 00,11, 00,19, 00,08, 00,06, 00,27, 00,26, 00,2a, 00,29, 00,0b, 00,0e"
local ssl2_sweet32_ciphers='RC2-CBC-MD5:EXP-RC2-CBC-MD5:IDEA-CBC-MD5:DES-CBC-MD5:DES-CBC-SHA:DES-CBC3-MD5:DES-CBC3-SHA:DES-CFB-M1'
local ssl2_sweet32_ciphers_hex='03,00,80, 04,00,80, 05,00,80, 06,00,40, 06,01,40, 07,00,C0, 07,01,C0, FF,80,00'
local nr_cipher_minimal=21
local proto
local cve="CVE-2016-2183 CVE-2016-6329"
local cwe="CWE-327"
local hint=""
local -i nr_sweet32_ciphers=0 nr_supported_ciphers=0 nr_ssl2_sweet32_ciphers=0 nr_ssl2_supported_ciphers=0
local ssl2_sweet=false
local using_sockets=true
local tls1_1_vulnerable=false
[[ $VULN_COUNT -le $VULN_THRESHLD ]] && outln && pr_headlineln " Testing for SWEET32 (Birthday Attacks on 64-bit Block Ciphers) " && outln
pr_bold " SWEET32"; out " (${cve// /, }) "
if "$TLS13_ONLY"; then
# Unfortunately there's no restriction using TLS 1.2 with $sweet32_ciphers
pr_svrty_best "not vulnerable (OK)"
[[ $DEBUG -ge 1 ]] && out ", TLS 1.3 doesn't offer such ciphers"
outln
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
return 0
fi
"$SSL_NATIVE" && using_sockets=false
# The openssl binary distributed has almost everything we need (PSK, KRB5 ciphers and feff, ffe0 are typically missing).
# Measurements show that there's little impact whether we use sockets or TLS here, so the default is sockets here.
if "$using_sockets"; then
for proto in 03 02 01 00; do
[[ $(has_server_protocol "$proto") -eq 1 ]] && continue
tls_sockets "$proto" "${sweet32_ciphers_hex}, 00,ff"
sclient_success=$?
[[ $sclient_success -eq 2 ]] && sclient_success=0
[[ $sclient_success -eq 0 ]] && break
done
if [[ 1 -ne $(has_server_protocol "ssl2") ]]; then
sslv2_sockets "$ssl2_sweet32_ciphers_hex"
case $? in
3) ssl2_sweet=true
add_proto_offered ssl2 yes ;;
0) ;; # ssl2_sweet=false
1|4|6|7) debugme "${FUNCNAME[0]}: test problem we don't handle here"
;;
esac
fi
else
nr_sweet32_ciphers=$(count_ciphers $sweet32_ciphers)
nr_supported_ciphers=$(count_ciphers $(actually_supported_osslciphers $sweet32_ciphers))
debugme echo "$nr_sweet32_ciphers / $nr_supported_ciphers"
nr_ssl2_sweet32_ciphers=$(count_ciphers $ssl2_sweet32_ciphers)
nr_ssl2_supported_ciphers=$(count_ciphers $(actually_supported_osslciphers $ssl2_sweet32_ciphers))
debugme echo "$nr_ssl2_sweet32_ciphers / $nr_ssl2_supported_ciphers"
if [[ $(( nr_supported_ciphers + nr_ssl2_supported_ciphers )) -le $nr_cipher_minimal ]]; then
pr_local_problem "Only ${nr_supported_ciphers}+${nr_ssl2_supported_ciphers} \"SWEET32 ciphers\" found in your $OPENSSL."
outln " Test skipped"
fileout "SWEET32" "WARN" "Not tested, lack of local support ($((nr_supported_ciphers + nr_ssl2_supported_ciphers)) ciphers only)" "$cve" "$cwe" "$hint"
return 1
fi
for proto in -no_ssl2 -tls1_1 -tls1 -ssl3; do
[[ $nr_supported_ciphers -eq 0 ]] && break
! "$HAS_SSL3" && [[ "$proto" == -ssl3 ]] && continue
if [[ "$proto" != -no_ssl2 ]]; then
"$FAST" && break
[[ $(has_server_protocol "${proto:1}") -eq 1 ]] && continue
fi
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS $proto -cipher $sweet32_ciphers -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE
sclient_success=$?
[[ $DEBUG -ge 2 ]] && grep -Eq "error|failure" $ERRFILE | grep -Eav "unable to get local|verify error"
[[ $proto == -tls1_1 && $sclient_success -eq 0 ]] && tls1_1_vulnerable=true
[[ $sclient_success -eq 0 ]] && break
done
if "$HAS_SSL2"; then
if [[ 1 -ne $(has_server_protocol "ssl2") ]]; then
$OPENSSL s_client $STARTTLS $BUGS -ssl2 -cipher $ssl2_sweet32_ciphers -connect $NODEIP:$PORT $PROXY >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE
if [[ $? -eq 0 ]]; then
ssl2_sweet=true
add_proto_offered ssl2 yes
fi
fi
else
debugme tm_warning "Can't test with SSLv2 here as $OPENSSL lacks support"
# we omit adding a string for DEBUG==0 here as using sockets is the default and the following elif statement becomes ugly
fi
fi
if [[ $sclient_success -eq 0 ]] && "$ssl2_sweet" ; then
pr_svrty_low "VULNERABLE"; out ", uses 64 bit block ciphers for SSLv2 and above"
fileout "SWEET32" "LOW" "uses 64 bit block ciphers for SSLv2 and above" "$cve" "$cwe" "$hint"
"$tls1_1_vulnerable" && set_grade_cap "C" "Uses 64 bit block ciphers with TLS 1.1 (vulnerable to SWEET32)"
elif [[ $sclient_success -eq 0 ]]; then
pr_svrty_low "VULNERABLE"; out ", uses 64 bit block ciphers"
fileout "SWEET32" "LOW" "uses 64 bit block ciphers" "$cve" "$cwe" "$hint"
"$tls1_1_vulnerable" && set_grade_cap "C" "Uses 64 bit block ciphers with TLS 1.1 (vulnerable to SWEET32)"
elif "$ssl2_sweet"; then
pr_svrty_low "VULNERABLE"; out ", uses 64 bit block ciphers wth SSLv2 only"
fileout "SWEET32" "LOW" "uses 64 bit block ciphers with SSLv2 only" "$cve" "$cwe" "$hint"
else
pr_svrty_best "not vulnerable (OK)";
if "$using_sockets"; then
fileout "SWEET32" "OK" "not vulnerable" "$cve" "$cwe"
else
if [[ "$nr_supported_ciphers" -ge 38 ]]; then
# Likely only PSK/KRB5 ciphers are missing: display discrepancy but no warning
if "$HAS_SSL2"; then
out ", $nr_supported_ciphers/$nr_sweet32_ciphers (SSLv2: $nr_ssl2_sweet32_ciphers/$nr_ssl2_supported_ciphers) local ciphers"
fileout "SWEET32" "OK" "not vulnerable ($nr_supported_ciphers of $nr_sweet32_ciphers (SSLv2: $nr_ssl2_sweet32_ciphers/$nr_ssl2_supported_ciphers)) local ciphers" "$cve" "$cwe"
else
out ", $nr_supported_ciphers/$nr_sweet32_ciphers local ciphers"
fileout "SWEET32" "OK" "not vulnerable ($nr_supported_ciphers of $nr_sweet32_ciphers local ciphers" "$cve" "$cwe"
fi
else
if "$HAS_SSL2"; then
pr_warning ", $nr_supported_ciphers/$nr_sweet32_ciphers (SSLv2: $nr_ssl2_sweet32_ciphers/$nr_ssl2_supported_ciphers) local ciphers"
fileout "SWEET32" "WARN" "not vulnerable but ($nr_supported_ciphers of $nr_sweet32_ciphers (SSLv2: $nr_ssl2_sweet32_ciphers/$nr_ssl2_supported_ciphers)) local ciphers only" "$cve" "$cwe"
else
pr_warning ", $nr_supported_ciphers/$nr_sweet32_ciphers local ciphers"
fileout "SWEET32" "WARN" "not vulnerable but ($nr_supported_ciphers of $nr_sweet32_ciphers) local ciphers only" "$cve" "$cwe"
fi
fi
fi
fi
outln
tmpfile_handle ${FUNCNAME[0]}.txt
[[ $sclient_success -ge 6 ]] && return 1
return 0
}
# Padding Oracle On Downgraded Legacy Encryption, in a nutshell: don't use CBC Ciphers in SSLv3
run_ssl_poodle() {
local -i sclient_success=0
local cbc_ciphers="ECDHE-RSA-AES256-SHA:ECDHE-ECDSA-AES256-SHA:SRP-DSS-AES-256-CBC-SHA:SRP-RSA-AES-256-CBC-SHA:SRP-AES-256-CBC-SHA:DHE-PSK-AES256-CBC-SHA:DHE-RSA-AES256-SHA:DHE-DSS-AES256-SHA:DH-RSA-AES256-SHA:DH-DSS-AES256-SHA:DHE-RSA-CAMELLIA256-SHA:DHE-DSS-CAMELLIA256-SHA:DH-RSA-CAMELLIA256-SHA:DH-DSS-CAMELLIA256-SHA:AECDH-AES256-SHA:ADH-AES256-SHA:ADH-CAMELLIA256-SHA:ECDH-RSA-AES256-SHA:ECDH-ECDSA-AES256-SHA:AES256-SHA:ECDHE-PSK-AES256-CBC-SHA:CAMELLIA256-SHA:RSA-PSK-AES256-CBC-SHA:PSK-AES256-CBC-SHA:ECDHE-RSA-AES128-SHA:ECDHE-ECDSA-AES128-SHA:SRP-DSS-AES-128-CBC-SHA:SRP-RSA-AES-128-CBC-SHA:SRP-AES-128-CBC-SHA:DHE-RSA-AES128-SHA:DHE-DSS-AES128-SHA:DH-RSA-AES128-SHA:DH-DSS-AES128-SHA:DHE-RSA-SEED-SHA:DHE-DSS-SEED-SHA:DH-RSA-SEED-SHA:DH-DSS-SEED-SHA:DHE-RSA-CAMELLIA128-SHA:DHE-DSS-CAMELLIA128-SHA:DH-RSA-CAMELLIA128-SHA:DH-DSS-CAMELLIA128-SHA:AECDH-AES128-SHA:ADH-AES128-SHA:ADH-SEED-SHA:ADH-CAMELLIA128-SHA:ECDH-RSA-AES128-SHA:ECDH-ECDSA-AES128-SHA:AES128-SHA:ECDHE-PSK-AES128-CBC-SHA:DHE-PSK-AES128-CBC-SHA:SEED-SHA:CAMELLIA128-SHA:IDEA-CBC-SHA:RSA-PSK-AES128-CBC-SHA:PSK-AES128-CBC-SHA:KRB5-IDEA-CBC-SHA:KRB5-IDEA-CBC-MD5:ECDHE-RSA-DES-CBC3-SHA:ECDHE-ECDSA-DES-CBC3-SHA:SRP-DSS-3DES-EDE-CBC-SHA:SRP-RSA-3DES-EDE-CBC-SHA:SRP-3DES-EDE-CBC-SHA:EDH-RSA-DES-CBC3-SHA:EDH-DSS-DES-CBC3-SHA:DH-RSA-DES-CBC3-SHA:DH-DSS-DES-CBC3-SHA:AECDH-DES-CBC3-SHA:ADH-DES-CBC3-SHA:ECDH-RSA-DES-CBC3-SHA:ECDH-ECDSA-DES-CBC3-SHA:DES-CBC3-SHA:RSA-PSK-3DES-EDE-CBC-SHA:PSK-3DES-EDE-CBC-SHA:KRB5-DES-CBC3-SHA:KRB5-DES-CBC3-MD5:ECDHE-PSK-3DES-EDE-CBC-SHA:DHE-PSK-3DES-EDE-CBC-SHA:EXP1024-DHE-DSS-DES-CBC-SHA:EDH-RSA-DES-CBC-SHA:EDH-DSS-DES-CBC-SHA:DH-RSA-DES-CBC-SHA:DH-DSS-DES-CBC-SHA:ADH-DES-CBC-SHA:EXP1024-DES-CBC-SHA:DES-CBC-SHA:KRB5-DES-CBC-SHA:KRB5-DES-CBC-MD5:EXP-EDH-RSA-DES-CBC-SHA:EXP-EDH-DSS-DES-CBC-SHA:EXP-ADH-DES-CBC-SHA:EXP-DES-CBC-SHA:EXP-RC2-CBC-MD5:EXP-KRB5-RC2-CBC-SHA:EXP-KRB5-DES-CBC-SHA:EXP-KRB5-RC2-CBC-MD5:EXP-KRB5-DES-CBC-MD5:EXP-DH-DSS-DES-CBC-SHA:EXP-DH-RSA-DES-CBC-SHA"
local cbc_ciphers_hex="c0,14, c0,0a, c0,22, c0,21, c0,20, 00,91, 00,39, 00,38, 00,37, 00,36, 00,88, 00,87, 00,86, 00,85, c0,19, 00,3a, 00,89, c0,0f, c0,05, 00,35, c0,36, 00,84, 00,95, 00,8d, c0,13, c0,09, c0,1f, c0,1e, c0,1d, 00,33, 00,32, 00,31, 00,30, 00,9a, 00,99, 00,98, 00,97, 00,45, 00,44, 00,43, 00,42, c0,18, 00,34, 00,9b, 00,46, c0,0e, c0,04, 00,2f, c0,35, 00,90, 00,96, 00,41, 00,07, 00,94, 00,8c, 00,21, 00,25, c0,12, c0,08, c0,1c, c0,1b, c0,1a, 00,16, 00,13, 00,10, 00,0d, c0,17, 00,1b, c0,0d, c0,03, 00,0a, 00,93, 00,8b, 00,1f, 00,23, c0,34, 00,8f, 00,63, 00,15, 00,12, 00,0f, 00,0c, 00,1a, 00,62, 00,09, 00,1e, 00,22, 00,14, 00,11, 00,19, 00,08, 00,06, 00,27, 00,26, 00,2a, 00,29, 00,0b, 00,0e"
local hint=""
local -i nr_cbc_ciphers=0
local using_sockets=true
local cve="CVE-2014-3566"
local cwe="CWE-310"
local jsonID="POODLE_SSL"
[[ $VULN_COUNT -le $VULN_THRESHLD ]] && outln && pr_headlineln " Testing for SSLv3 POODLE (Padding Oracle On Downgraded Legacy Encryption) " && outln
pr_bold " POODLE, SSL"; out " ($cve) "
if "$TLS13_ONLY" || [[ $(has_server_protocol ssl3) -eq 1 ]]; then
# one condition should normally suffice but we don't know when run_poddle() was called
pr_svrty_best "not vulnerable (OK)"
outln ", no SSLv3 support"
fileout "$jsonID" "OK" "not vulnerable, no SSLv3" "$cve" "$cwe"
return 0
fi
"$SSL_NATIVE" && using_sockets=false
# The openssl binary distributed has almost everything we need (PSK and KRB5 ciphers are typically missing).
# Measurements show that there's little impact whether we use sockets or TLS here, so the default is sockets here
if "$using_sockets"; then
tls_sockets "00" "$cbc_ciphers_hex, 00,ff"
sclient_success=$?
else
if ! "$HAS_SSL3"; then
prln_local_problem "Your $OPENSSL doesn't support SSLv3"
return 1
fi
nr_cbc_ciphers=$(count_ciphers $cbc_ciphers)
nr_supported_ciphers=$(count_ciphers $(actually_supported_osslciphers $cbc_ciphers))
# SNI not needed as SSLv3 has none:
$OPENSSL s_client $(s_client_options "-ssl3 $STARTTLS $BUGS -cipher $cbc_ciphers -connect $NODEIP:$PORT $PROXY") >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE
sclient_success=$?
[[ "$DEBUG" -eq 2 ]] && grep -Eq "error|failure" $ERRFILE | grep -Eav "unable to get local|verify error"
fi
if [[ $sclient_success -eq 0 ]]; then
POODLE=0
pr_svrty_high "VULNERABLE (NOT ok)"; out ", uses SSLv3+CBC (check TLS_FALLBACK_SCSV mitigation below)"
fileout "$jsonID" "HIGH" "VULNERABLE, uses SSLv3+CBC" "$cve" "$cwe" "$hint"
set_grade_cap "C" "Vulnerable to POODLE"
else
POODLE=1
pr_svrty_best "not vulnerable (OK)";
if "$using_sockets"; then
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
else
if [[ "$nr_supported_ciphers" -ge 83 ]]; then
# Likely only KRB and PSK cipher are missing: display discrepancy but no warning
out ", $nr_supported_ciphers/$nr_cbc_ciphers local ciphers"
else
pr_warning ", $nr_supported_ciphers/$nr_cbc_ciphers local ciphers"
fi
fileout "$jsonID" "OK" "not vulnerable ($nr_supported_ciphers of $nr_cbc_ciphers local ciphers" "$cve" "$cwe"
fi
fi
outln
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
# for appliance which use padding, no fallback needed
run_tls_poodle() {
local cve="CVE-2014-8730"
local cwe="CWE-310"
local jsonID="POODLE_TLS"
pr_bold " POODLE, TLS"; out " ($cve), experimental "
#FIXME
prln_warning "#FIXME"
fileout "$jsonID" "WARN" "Not yet implemented #FIXME" "$cve" "$cwe"
# set_grade_cap "F" "Vulnerable to POODLE TLS"
return 0
}
#FIXME: fileout needs to be patched according to new scheme. Postponed as otherwise merge fails ??
#
# This isn't a vulnerability check per se, but checks for the existence of
# the countermeasure to protect against protocol downgrade attacks.
#
run_tls_fallback_scsv() {
local -i ret=0
local high_proto="" low_proto=""
local p high_proto_str protos_to_try
local jsonID="fallback_SCSV"
[[ $VULN_COUNT -le $VULN_THRESHLD ]] && outln && pr_headlineln " Testing for TLS_FALLBACK_SCSV Protection " && outln
pr_bold " TLS_FALLBACK_SCSV"; out " (RFC 7507) "
# First check we have support for TLS_FALLBACK_SCSV in our local OpenSSL
if ! "$HAS_FALLBACK_SCSV"; then
prln_local_problem "$OPENSSL lacks TLS_FALLBACK_SCSV support"
fileout "$jsonID" "WARN" "$OPENSSL lacks TLS_FALLBACK_SCSV support"
return 1
fi
# First determine the highest protocol that the server supports (not including TLSv1.3).
if [[ "$OPTIMAL_PROTO" == -ssl2 ]]; then
prln_svrty_critical "No fallback possible, SSLv2 is the only protocol"
fileout "$jsonID" "CRITICAL" "SSLv2 is the only protocol"
return 0
fi
for p in tls1_2 tls1_1 tls1 ssl3; do
[[ $(has_server_protocol "$p") -eq 1 ]] && continue
if [[ $(has_server_protocol "$p") -eq 0 ]]; then
high_proto="$p"
break
fi
[[ "$p" == ssl3 ]] && ! "$HAS_SSL3" && continue
$OPENSSL s_client $(s_client_options "-$p $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>$ERRFILE </dev/null
if sclient_connect_successful $? $TMPFILE; then
high_proto="$p"
break
fi
done
case "$high_proto" in
"tls1_2")
high_proto_str="TLS 1.2"
protos_to_try="tls1_1 tls1 ssl3" ;;
"tls1_1")
high_proto_str="TLS 1.1"
protos_to_try="tls1 ssl3" ;;
"tls1")
high_proto_str="TLS 1"
protos_to_try="ssl3" ;;
"ssl3")
prln_svrty_high "No fallback possible, SSLv3 is the only protocol"
fileout "$jsonID" "HIGH" "only SSLv3 supported"
return 0
;;
*) if [[ $(has_server_protocol tls1_3) -eq 0 ]]; then
# If the server supports TLS 1.3, and does not support TLS 1.2, TLS 1.1, or TLS 1,
# then assume it does not support SSLv3, even if SSLv3 cannot be tested.
pr_svrty_good "No fallback possible (OK)"; outln ", TLS 1.3 is the only protocol"
fileout "$jsonID" "OK" "only TLS 1.3 supported"
elif [[ $(has_server_protocol tls1_3) -eq 1 ]] && \
( [[ $(has_server_protocol ssl3) -eq 1 ]] || "$HAS_SSL3" ); then
# TLS 1.3, TLS 1.2, TLS 1.1, TLS 1, and SSLv3 are all not supported.
# This may be an SSLv2-only server, if $OPENSSL does not support SSLv2.
prln_warning "test failed (couldn't connect)"
fileout "$jsonID" "WARN" "Check failed. (couldn't connect)"
return 1
elif [[ $(has_server_protocol tls1_3) -eq 1 ]]; then
# If the server does not support TLS 1.3, TLS 1.2, TLS 1.1, or TLS 1, and
# support for SSLv3 cannot be tested, then treat it as HIGH severity, since
# it is very likely that SSLv3 is the only supported protocol.
pr_svrty_high "NOT ok, no fallback possible"; outln ", TLS 1.3, 1.2, 1.1 and 1.0 not supported"
fileout "$jsonID" "HIGH" "TLS 1.3, 1.2, 1.1, 1.0 not supported"
else
# TLS 1.2, TLS 1.1, and TLS 1 are not supported, but can't tell whether TLS 1.3 is supported.
# This could be a TLS 1.3 only server, an SSLv3 only server (if SSLv3 support cannot be tested),
# or a server that does not support SSLv3 or any TLS protocol. So, don't report a severity,
# since this could either be good or bad.
outln "No fallback possible, TLS 1.2, TLS 1.1, and TLS 1 not supported"
fileout "$jsonID" "INFO" "TLS 1.2, TLS 1.1, and TLS 1 not supported"
fi
return 0
esac
# Next find a second protocol that the server supports.
for p in $protos_to_try; do
[[ $(has_server_protocol "$p") -eq 1 ]] && continue
if [[ $(has_server_protocol "$p") -eq 0 ]]; then
low_proto="$p"
break
fi
[[ "$p" == ssl3 ]] && ! "$HAS_SSL3" && continue
$OPENSSL s_client $(s_client_options "-$p $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>$ERRFILE </dev/null
if sclient_connect_successful $? $TMPFILE; then
low_proto="$p"
break
fi
done
if ! "$HAS_SSL3" && \
( [[ "$low_proto" == ssl3 ]] || \
( [[ "$high_proto" == tls1 ]] && [[ $(has_server_protocol ssl3) -eq 2 ]] ) ); then
# If the protocol that the server would fall back to is SSLv3, but $OPENSSL does
# not support SSLv3, then the test cannot be performed. So, if $OPENSSL does not
# support SSLv3 and it is known that SSLv3 is the fallback protocol ($low_proto), then
# the test cannot be performed. Similarly, if SSLv3 could be the fallback protocol, but
# support for SSLv3 is unknown, then the test cannot be performed.
# NOTE: This check assumes that any server that suppports SSLv3 and either TLS 1.2 or
# TLS 1.1 would also support TLS 1. So, if $high_proto is not TLS 1, then it is assumed
# that either (1) $low_proto has already been set (to TLS1.1 or TLS 1) or (2) no protocol
# lower than $high_proto is offered.
prln_local_problem "Can't test: $OPENSSL does not support SSLv3"
fileout "$jsonID" "WARN" "Can't test: $OPENSSL does not support SSLv3"
return 1
fi
if [[ -z "$low_proto" ]]; then
case "$high_proto" in
"tls1_2")
pr_svrty_good "No fallback possible (OK)"; outln ", no protocol below $high_proto_str offered"
;;
*) outln "No fallback possible, no protocol below $high_proto_str offered (OK)"
;;
esac
fileout "$jsonID" "OK" "no protocol below $high_proto_str offered"
return 0
fi
case "$low_proto" in
"tls1_1")
p="-no_tls1_2" ;;
"tls1")
p="-no_tls1_2 -no_tls1_1" ;;
"ssl3")
p="-no_tls1_2 -no_tls1_1 -no_tls1" ;;
esac
"$HAS_TLS13" && p+=" -no_tls1_3"
debugme echo "Simulating fallback from $high_proto to $low_proto"
# ...and do the test (we need to parse the error here!)
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI $p -fallback_scsv") &>$TMPFILE </dev/null
if grep -q "CONNECTED(00" "$TMPFILE"; then
if grep -qa "BEGIN CERTIFICATE" "$TMPFILE"; then
if [[ -z "$POODLE" ]]; then
pr_warning "Rerun including POODLE SSL check. "
pr_svrty_medium "Downgrade attack prevention NOT supported"
fileout "$jsonID" "WARN" "NOT supported. Pls rerun with POODLE SSL check"
ret=1
elif [[ "$POODLE" -eq 0 ]]; then
pr_svrty_high "Downgrade attack prevention NOT supported and vulnerable to POODLE SSL"
fileout "$jsonID" "HIGH" "NOT supported and vulnerable to POODLE SSL"
set_grade_cap "C" "Vulnerable to POODLE"
else
pr_svrty_medium "Downgrade attack prevention NOT supported"
fileout "$jsonID" "MEDIUM" "NOT supported"
fi
set_grade_cap "A" "Does not support TLS_FALLBACK_SCSV"
elif grep -qa "alert inappropriate fallback" "$TMPFILE"; then
pr_svrty_good "Downgrade attack prevention supported (OK)"
fileout "$jsonID" "OK" "supported"
elif grep -qa "alert handshake failure" "$TMPFILE"; then
pr_svrty_good "Probably OK. "
fileout "$jsonID" "OK" "Probably oK"
# see RFC 7507, https://github.com/drwetter/testssl.sh/issues/121
# other case reported by Nicolas was F5 and at costumer of mine: the same
pr_svrty_medium "But received non-RFC-compliant \"handshake failure\" instead of \"inappropriate fallback\""
fileout "$jsonID" "MEDIUM" "received non-RFC-compliant \"handshake failure\" instead of \"inappropriate fallback\""
elif grep -qa "ssl handshake failure" "$TMPFILE"; then
pr_svrty_medium "some unexpected \"handshake failure\" instead of \"inappropriate fallback\""
fileout "$jsonID" "MEDIUM" "some unexpected \"handshake failure\" instead of \"inappropriate fallback\" (likely: warning)"
else
pr_warning "Check failed, unexpected result "
out ", run $PROG_NAME -Z --debug=1 and look at $TEMPDIR/*tls_fallback_scsv.txt"
fileout "$jsonID" "WARN" "Check failed, unexpected result, run $PROG_NAME -Z --debug=1 and look at $TEMPDIR/*tls_fallback_scsv.txt"
ret=1
fi
else
pr_warning "test failed (couldn't connect)"
fileout "$jsonID" "WARN" "Check failed. (couldn't connect)"
ret=1
fi
outln
tmpfile_handle ${FUNCNAME[0]}.txt
return $ret
}
# Factoring RSA Export Keys: don't use EXPORT RSA ciphers, see https://freakattack.com/
run_freak() {
local -i sclient_success=0
local -i i nr_supported_ciphers=0 len
# with correct build it should list these 9 ciphers (plus the two latter as SSLv2 ciphers):
local exportrsa_cipher_list="EXP1024-DES-CBC-SHA:EXP1024-RC2-CBC-MD5:EXP1024-RC4-SHA:EXP1024-RC4-MD5:EXP-EDH-RSA-DES-CBC-SHA:EXP-DH-RSA-DES-CBC-SHA:EXP-DES-CBC-SHA:EXP-RC2-CBC-MD5:EXP-RC4-MD5"
local exportrsa_tls_cipher_list_hex="00,62, 00,61, 00,64, 00,60, 00,14, 00,0E, 00,08, 00,06, 00,03"
local exportrsa_ssl2_cipher_list_hex="04,00,80, 02,00,80, 00,00,00"
local detected_ssl2_ciphers
local addtl_warning="" hexc
local using_sockets=true
local cve="CVE-2015-0204"
local cwe="CWE-310"
local hint=""
local jsonID="FREAK"
[[ $VULN_COUNT -le $VULN_THRESHLD ]] && outln && pr_headlineln " Testing for FREAK attack " && outln
pr_bold " FREAK"; out " ($cve) "
if "$TLS13_ONLY"; then
pr_svrty_best "not vulnerable (OK)"
[[ $DEBUG -ge 1 ]] && out ", TLS 1.3 only server"
outln
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
return 0
fi
"$SSL_NATIVE" && using_sockets=false
if "$using_sockets"; then
nr_supported_ciphers=$(count_words "$exportrsa_tls_cipher_list_hex")+$(count_words "$exportrsa_ssl2_cipher_list_hex")
else
nr_supported_ciphers=$(count_ciphers $(actually_supported_osslciphers $exportrsa_cipher_list))
fi
case $nr_supported_ciphers in
0) prln_local_problem "$OPENSSL doesn't have any EXPORT RSA ciphers configured"
fileout "$jsonID" "WARN" "Not tested. $OPENSSL doesn't have any EXPORT RSA ciphers configured" "$cve" "$cwe"
return 0
;;
1|2|3)
addtl_warning=" ($magenta""tested only with $nr_supported_ciphers out of 9 ciphers only!$off)" ;;
4|5|6|7)
addtl_warning=" (tested with $nr_supported_ciphers/9 ciphers)" ;;
8|9|10|11)
addtl_warning="" ;;
esac
if "$using_sockets"; then
tls_sockets "03" "$exportrsa_tls_cipher_list_hex, 00,ff"
sclient_success=$?
[[ $sclient_success -eq 2 ]] && sclient_success=0
# TLS handshake failed with ciphers above. Now we check SSLv2 -- unless we know it's not available
if [[ $sclient_success -ne 0 ]] && [[ $(has_server_protocol ssl2) -ne 1 ]]; then
sslv2_sockets "$exportrsa_ssl2_cipher_list_hex" "true"
if [[ $? -eq 3 ]] && [[ "$V2_HELLO_CIPHERSPEC_LENGTH" -ne 0 ]]; then
exportrsa_ssl2_cipher_list_hex="$(strip_spaces "${exportrsa_ssl2_cipher_list_hex//,/}")"
len=${#exportrsa_ssl2_cipher_list_hex}
detected_ssl2_ciphers="$(grep "Supported cipher: " "$TEMPDIR/$NODEIP.parse_sslv2_serverhello.txt")"
for (( i=0; i<len; i+=6 )); do
[[ "$detected_ssl2_ciphers" =~ x${exportrsa_ssl2_cipher_list_hex:i:6} ]] && sclient_success=0 && break
done
fi
fi
else
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -cipher $exportrsa_cipher_list -connect $NODEIP:$PORT $PROXY $SNI -no_ssl2") >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE
sclient_success=$?
debugme grep -Ea "error|failure" $ERRFILE | grep -Eav "unable to get local|verify error"
if [[ $sclient_success -ne 0 ]] && "$HAS_SSL2"; then
$OPENSSL s_client $STARTTLS $BUGS -cipher $exportrsa_cipher_list -connect $NODEIP:$PORT $PROXY -ssl2 >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE
sclient_success=$?
fi
fi
if [[ $sclient_success -eq 0 ]]; then
pr_svrty_critical "VULNERABLE (NOT ok)"; out ", uses EXPORT RSA ciphers"
fileout "$jsonID" "CRITICAL" "VULNERABLE, uses EXPORT RSA ciphers" "$cve" "$cwe" "$hint"
else
pr_svrty_best "not vulnerable (OK)"; out "$addtl_warning"
fileout "$jsonID" "OK" "not vulnerable $addtl_warning" "$cve" "$cwe"
fi
outln
if [[ $DEBUG -ge 2 ]]; then
if "$using_sockets"; then
for hexc in $(sed 's/, / /g' <<< "$exportrsa_tls_cipher_list_hex, $exportrsa_ssl2_cipher_list_hex"); do
if [[ ${#hexc} -eq 5 ]]; then
hexc="0x${hexc:0:2},0x${hexc:3:2}"
else
hexc="0x${hexc:0:2},0x${hexc:3:2},0x${hexc:6:2}"
fi
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
[[ "$hexc" == "${TLS_CIPHER_HEXCODE[i]}" ]] && break
done
[[ $i -eq $TLS_NR_CIPHERS ]] && tm_out "$hexc " || tm_out "${TLS_CIPHER_OSSL_NAME[i]} "
done
tmln_out
else
actually_supported_osslciphers $exportrsa_cipher_list
fi
fi
debugme echo $nr_supported_ciphers
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
# ARGs see below
# Sets the global DH_GROUP_OFFERED, start value: "", after this function:
# DH_GROUP_OFFERED=""
# DH_GROUP_OFFERED="<name of group>"
# return: 1: common primes file problem, 2: no pkey support, 0: went w/o error
get_common_prime() {
local jsonID2="$1"
local key_bitstring="$2"
local spaces="$3"
local pubkey dh_p=""
local -i subret=0
local common_primes_file="$TESTSSL_INSTALL_DIR/etc/common-primes.txt"
local -i lineno_matched=0
"$HAS_PKEY" || return 2
pubkey="$($OPENSSL pkey -pubin -text_pub -noout 2>>$ERRFILE <<< "$key_bitstring")"
if [[ "$pubkey" =~ GROUP: ]]; then
DH_GROUP_OFFERED="${pubkey#*GROUP: }"
case "$DH_GROUP_OFFERED" in
modp_1536) DH_GROUP_OFFERED="RFC3526/Oakley Group 5" ;;
modp_2048) DH_GROUP_OFFERED="RFC3526/Oakley Group 14" ;;
modp_3072) DH_GROUP_OFFERED="RFC3526/Oakley Group 15" ;;
modp_4096) DH_GROUP_OFFERED="RFC3526/Oakley Group 16" ;;
modp_6144) DH_GROUP_OFFERED="RFC3526/Oakley Group 17" ;;
modp_8192) DH_GROUP_OFFERED="RFC3526/Oakley Group 18" ;;
dh_1024_160) DH_GROUP_OFFERED="RFC5114/1024-bit DSA group with 160-bit prime order subgroup" ;;
dh_2048_224) DH_GROUP_OFFERED="RFC5114/2048-bit DSA group with 224-bit prime order subgroup" ;;
dh_2048_256) DH_GROUP_OFFERED="RFC5114/2048-bit DSA group with 256-bit prime order subgroup" ;;
esac
pubkey="$(awk -F'(' '/Public-Key/ { print $2 }' <<< "$pubkey")"
DH_GROUP_LEN_P="${pubkey%% bit*}"
return 0
fi
dh_p="$(awk '/prime:|P:/,/generator:|G:/' <<< "$pubkey" | grep -Ev "prime|P:|generator|G:")"
dh_p="$(strip_spaces "$(colon_to_spaces "$(newline_to_spaces "$dh_p")")")"
[[ "${dh_p:0:2}" == "00" ]] && dh_p="${dh_p:2}"
DH_GROUP_LEN_P="$((4*${#dh_p}))"
debugme tmln_out "len(dh_p): $DH_GROUP_LEN_P | dh_p: $dh_p"
[[ "$DEBUG" -gt 1 ]] && echo "$dh_p" > $TEMPDIR/dh_p.txt
if [[ ! -s "$common_primes_file" ]]; then
prln_local_problem "couldn't read common primes file $common_primes_file"
out "${spaces}"
fileout "$jsonID2" "WARN" "couldn't read common primes file $common_primes_file"
return 1
else
dh_p="$(toupper "$dh_p")"
# In the previous line of the match is bascially the hint we want to echo
# the most elegant thing to get the previous line [ awk '/regex/ { print x }; { x=$0 }' ] doesn't work with gawk
lineno_matched=$(grep -n "$dh_p" "$common_primes_file" 2>/dev/null | awk -F':' '{ print $1 }')
if [[ "$lineno_matched" -ne 0 ]]; then
DH_GROUP_OFFERED="$(awk "NR == $lineno_matched-1" "$common_primes_file" | awk -F'"' '{ print $2 }')"
#subret=1 # vulnerable: common prime
else
DH_GROUP_OFFERED="Unknown DH group"
:
#subret=0 # not vulnerable: no known common prime
fi
return 0
fi
}
# helper function for run_logjam see below
#
out_common_prime() {
local jsonID2="$1"
local cve="$2"
local cwe="$3"
[[ "$DH_GROUP_OFFERED" == ffdhe* ]] && [[ ! "$DH_GROUP_OFFERED" =~ \ ]] && DH_GROUP_OFFERED="RFC7919/$DH_GROUP_OFFERED"
if [[ "$DH_GROUP_OFFERED" =~ ffdhe ]] && [[ "$DH_GROUP_OFFERED" =~ \ ]]; then
out "common primes detected: "; pr_italic "$DH_GROUP_OFFERED"
fileout "$jsonID2" "INFO" "$DH_GROUP_OFFERED" "$cve" "$cwe"
# Now (below) size matters -- i.e. the bit size. As this is about a known prime we label it more strict.
# This needs maybe needs another thought as it could appear inconsistent with run_fs and elsewhere.
# for now we label the bit size similar in the screen, but distinguish the leading text for logjam before
elif [[ $DH_GROUP_LEN_P -le 800 ]]; then
pr_svrty_critical "VULNERABLE (NOT ok):"; out " common prime: "
fileout "$jsonID2" "CRITICAL" "$DH_GROUP_OFFERED" "$cve" "$cwe"
pr_dh "$DH_GROUP_OFFERED" $DH_GROUP_LEN_P
elif [[ $DH_GROUP_LEN_P -le 1024 ]]; then
# really? Here we assume that 1024-bit common prime for nation states are worth and possible to precompute (TBC)
# otherwise 1024 are just medium
pr_svrty_high "VULNERABLE (NOT ok):"; out " common prime: "
fileout "$jsonID2" "HIGH" "$DH_GROUP_OFFERED" "$cve" "$cwe"
pr_dh "$DH_GROUP_OFFERED" $DH_GROUP_LEN_P
elif [[ $DH_GROUP_LEN_P -le 1536 ]]; then
pr_svrty_low "common prime: "
fileout "$jsonID2" "LOW" "$DH_GROUP_OFFERED" "$cve" "$cwe"
pr_dh "$DH_GROUP_OFFERED" $DH_GROUP_LEN_P
else
out "common prime with $DH_GROUP_LEN_P bits detected: "
fileout "$jsonID2" "INFO" "$DH_GROUP_OFFERED" "$cve" "$cwe"
pr_dh "$DH_GROUP_OFFERED" $DH_GROUP_LEN_P
fi
}
# see https://weakdh.org/logjam.html
run_logjam() {
local -i sclient_success=0
local exportdh_cipher_list="EXP1024-DHE-DSS-DES-CBC-SHA:EXP1024-DHE-DSS-RC4-SHA:EXP-EDH-RSA-DES-CBC-SHA:EXP-EDH-DSS-DES-CBC-SHA"
local exportdh_cipher_list_hex="00,63, 00,65, 00,14, 00,11"
local all_dh_ciphers="cc,15, 00,b3, 00,91, c0,97, 00,a3, 00,9f, cc,aa, c0,a3, c0,9f, 00,6b, 00,6a, 00,39, 00,38, 00,c4, 00,c3, 00,88, 00,87, 00,a7, 00,6d, 00,3a, 00,c5, 00,89, 00,ab, cc,ad, c0,a7, c0,43, c0,45, c0,47, c0,53, c0,57, c0,5b, c0,67, c0,6d, c0,7d, c0,81, c0,85, c0,91, 00,a2, 00,9e, c0,a2, c0,9e, 00,aa, c0,a6, 00,67, 00,40, 00,33, 00,32, 00,be, 00,bd, 00,9a, 00,99, 00,45, 00,44, 00,a6, 00,6c, 00,34, 00,bf, 00,9b, 00,46, 00,b2, 00,90, c0,96, c0,42, c0,44, c0,46, c0,52, c0,56, c0,5a, c0,66, c0,6c, c0,7c, c0,80, c0,84, c0,90, 00,66, 00,18, 00,8e, 00,16, 00,13, 00,1b, 00,8f, 00,63, 00,15, 00,12, 00,1a, 00,65, 00,14, 00,11, 00,19, 00,17, 00,b5, 00,b4, 00,2d" # 93 ciphers
local -i i nr_supported_ciphers=0 server_key_exchange_len=0 ephemeral_pub_len=0
local addtl_warning="" hexc
local -i ret=0 subret=0
local server_key_exchange key_bitstring=""
local spaces=" "
local vuln_exportdh_ciphers=false
local openssl_no_expdhciphers=false
local str=""
local using_sockets=true
local cve="CVE-2015-4000"
local cwe="CWE-310"
local hint=""
local jsonID="LOGJAM"
local jsonID2="${jsonID}-common_primes"
[[ $VULN_COUNT -le $VULN_THRESHLD ]] && outln && pr_headlineln " Testing for LOGJAM vulnerability " && outln
pr_bold " LOGJAM"; out " ($cve), experimental "
"$SSL_NATIVE" && using_sockets=false
# Also as the openssl binary distributed has everything we need measurements show that
# there's no impact whether we use sockets or TLS here, so the default is sockets here
if ! "$using_sockets"; then
nr_supported_ciphers=$(count_ciphers $(actually_supported_osslciphers $exportdh_cipher_list))
debugme echo $nr_supported_ciphers
case $nr_supported_ciphers in
0) prln_local_problem "$OPENSSL doesn't have any DH EXPORT ciphers configured"
fileout "$jsonID" "WARN" "Not tested. $OPENSSL doesn't support any DH EXPORT ciphers" "$cve" "$cwe"
out "$spaces"
openssl_no_expdhciphers=true
;;
1|2|3) addtl_warning=" ($magenta""tested w/ $nr_supported_ciphers/4 ciphers only!$off)" ;;
4) ;;
esac
fi
# test for DH export ciphers first
if "$using_sockets"; then
tls_sockets "03" "$exportdh_cipher_list_hex, 00,ff"
sclient_success=$?
[[ $sclient_success -eq 2 ]] && sclient_success=0
[[ $sclient_success -eq 0 ]] && vuln_exportdh_ciphers=true
elif [[ $nr_supported_ciphers -ne 0 ]]; then
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -cipher $exportdh_cipher_list -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE
[[ $? -eq 0 ]] && vuln_exportdh_ciphers=true
debugme grep -Ea "error|failure" $ERRFILE | grep -Eav "unable to get local|verify error"
fi
if [[ $DEBUG -ge 2 ]]; then
if "$using_sockets"; then
for hexc in $(sed 's/, / /g' <<< "$exportdh_cipher_list_hex"); do
hexc="0x${hexc:0:2},0x${hexc:3:2}"
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
[[ "$hexc" == "${TLS_CIPHER_HEXCODE[i]}" ]] && break
done
[[ $i -eq $TLS_NR_CIPHERS ]] && tm_out "$hexc " || tm_out "${TLS_CIPHER_OSSL_NAME[i]} "
done
tmln_out
else
echo $(actually_supported_osslciphers $exportdh_cipher_list)
fi
fi
# Try all ciphers that use an ephemeral DH key. If successful, check whether the key uses a weak prime.
if [[ -n "$DH_GROUP_OFFERED" ]]; then
if [[ "$DH_GROUP_OFFERED" =~ Unknown ]]; then
subret=0 # no common DH key detected
else
subret=1 # known prime/DH key
fi
elif "$using_sockets"; then
tls_sockets "03" "$all_dh_ciphers, 00,ff" "ephemeralkey"
sclient_success=$?
if [[ $sclient_success -eq 0 ]] || [[ $sclient_success -eq 2 ]]; then
cp "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" $TMPFILE
key_bitstring="$(awk '/-----BEGIN PUBLIC KEY/,/-----END PUBLIC KEY/ { print $0 }' $TMPFILE)"
fi
else
# FIXME: determine # of ciphers supported, 48 only are the shipped binaries
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -cipher kEDH -msg -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE
if [[ $? -eq 0 ]] && grep -q ServerKeyExchange $TMPFILE; then
# Example: '<<< TLS 1.0 Handshake [length 010b], ServerKeyExchange'
# get line with ServerKeyExchange, cut from the beginning to "length ". cut from the end to ']'
str="$(awk '/<<< TLS 1.[0-2].*ServerKeyExchange$/' $TMPFILE)"
if [[ -z "$str" ]] ; then
str="$(awk '/<<< SSL [2-3].*ServerKeyExchange$/' $TMPFILE)"
fi
str="${str#<*length }"
str="${str%]*}"
server_key_exchange_len=$(hex2dec "$str")
server_key_exchange_len=2+$server_key_exchange_len/16
server_key_exchange="$(grep -A $server_key_exchange_len ServerKeyExchange $TMPFILE | tail -n +2)"
server_key_exchange="$(toupper "$(strip_spaces "$(newline_to_spaces "$server_key_exchange")")")"
server_key_exchange="${server_key_exchange%%[!0-9A-F]*}"
server_key_exchange_len=${#server_key_exchange}
[[ $server_key_exchange_len -gt 8 ]] && [[ "${server_key_exchange:0:2}" == "0C" ]] && ephemeral_pub_len=$(hex2dec "${server_key_exchange:2:6}")
[[ $ephemeral_pub_len -ne 0 ]] && [[ $ephemeral_pub_len -le $server_key_exchange_len ]] && key_bitstring="$(get_dh_ephemeralkey "${server_key_exchange:8}")"
fi
fi
if [[ -n "$key_bitstring" ]]; then
if [[ -z "$DH_GROUP_OFFERED" ]]; then
get_common_prime "$jsonID2" "$key_bitstring" "$spaces"
ret=$? # no common primes file would be ret=1 --> we should treat that some place else before
fi
if [[ "$DH_GROUP_OFFERED" =~ Unknown ]]; then
subret=0 # no common DH key detected
else
subret=1 # known prime/DH key
fi
elif [[ -z "$DH_GROUP_OFFERED" ]]; then
subret=3
fi
# Now if we have DH export ciphers we print them out first
if "$vuln_exportdh_ciphers"; then
pr_svrty_high "VULNERABLE (NOT ok):"; out " uses DH EXPORT ciphers"
fileout "$jsonID" "HIGH" "VULNERABLE, uses DH EXPORT ciphers" "$cve" "$cwe" "$hint"
if [[ $subret -eq 3 ]]; then
out ", no DH key detected with <= TLS 1.2"
fileout "$jsonID2" "OK" "no DH key detected with <= TLS 1.2"
elif [[ $subret -eq 1 ]]; then
out "\n${spaces}"
out_common_prime "$jsonID2" "$cve" "$cwe"
elif [[ $subret -eq 0 ]]; then
out " no common primes detected"
fileout "$jsonID2" "INFO" "--" "$cve" "$cwe"
elif [[ $ret -eq 1 ]]; then
out "FIXME 1"
fi
else
if [[ $subret -eq 1 ]]; then
out_common_prime "$jsonID2" "$cve" "$cwe"
if ! "$openssl_no_expdhciphers"; then
outln ","
out "${spaces}but no DH EXPORT ciphers${addtl_warning}"
fileout "$jsonID" "OK" "not vulnerable, no DH EXPORT ciphers,$addtl_warning" "$cve" "$cwe"
fi
elif [[ $subret -eq 3 ]]; then
pr_svrty_good "not vulnerable (OK):"; out " no DH EXPORT ciphers${addtl_warning}"
fileout "$jsonID" "OK" "not vulnerable, no DH EXPORT ciphers,$addtl_warning" "$cve" "$cwe"
out ", no DH key detected with <= TLS 1.2"
fileout "$jsonID2" "OK" "no DH key with <= TLS 1.2" "$cve" "$cwe"
elif [[ $subret -eq 0 ]]; then
pr_svrty_good "not vulnerable (OK):"; out " no DH EXPORT ciphers${addtl_warning}"
fileout "$jsonID" "OK" "not vulnerable, no DH EXPORT ciphers,$addtl_warning" "$cve" "$cwe"
# we issue a special warning if there's no common prime but the bit length is too low
if [[ $DH_GROUP_LEN_P -le 1024 ]]; then
out "\n${spaces}But: "
pr_dh "$DH_GROUP_OFFERED" $DH_GROUP_LEN_P
case $? in
1) fileout "$jsonID" "CRITICAL" "no DH EXPORT ciphers, no common prime but $DH_GROUP_OFFERED has only $DH_GROUP_LEN_P bits, $addtl_warning" "$cve" "$cwe" ;;
2) fileout "$jsonID" "HIGH" "no DH EXPORT ciphers, no common prime but $DH_GROUP_OFFERED has only $DH_GROUP_LEN_P bits, $addtl_warning" "$cve" "$cwe";;
3) fileout "$jsonID" "MEDIUM" "no DH EXPORT ciphers, no common prime but $DH_GROUP_OFFERED has only $DH_GROUP_LEN_P bits, $addtl_warning" "$cve" "$cwe";;
esac
else
out ", no common prime detected"
fileout "$jsonID2" "OK" "--" "$cve" "$cwe"
fi
elif [[ $ret -eq 1 ]]; then
pr_svrty_good "partly not vulnerable:"; out " no DH EXPORT ciphers${addtl_warning}"
fileout "$jsonID" "OK" "not vulnerable, no DH EXPORT ciphers,$addtl_warning" "$cve" "$cwe"
fi
fi
[[ $DH_GROUP_LEN_P -gt 0 ]] && set_key_str_score "DHE" $DH_GROUP_LEN_P
outln
tmpfile_handle ${FUNCNAME[0]}.txt
return $ret
}
# Decrypting RSA with Obsolete and Weakened eNcryption, more @ https://drownattack.com/
run_drown() {
local -i nr_ciphers_detected ret=0
local spaces=" "
local cert_fingerprint_sha2=""
local cve="CVE-2016-0800 CVE-2016-0703"
local cwe="CWE-310"
local hint=""
local jsonID="DROWN"
if [[ $VULN_COUNT -le $VULN_THRESHLD ]]; then
outln
pr_headlineln " Testing for DROWN vulnerability "
outln
fi
# if we want to use OPENSSL: check for < openssl 1.0.2g, openssl 1.0.1s if native openssl
pr_bold " DROWN"; out " (${cve// /, }) "
# Any fingerprint that is placed in $RSA_CERT_FINGERPRINT_SHA2 is also added to
# to $CERT_FINGERPRINT_SHA2, so if $CERT_FINGERPRINT_SHA2 is not empty, but
# $RSA_CERT_FINGERPRINT_SHA2 is empty, then the server doesn't have an RSA certificate.
if [[ -z "$CERT_FINGERPRINT_SHA2" ]]; then
get_host_cert "-cipher aRSA"
[[ $? -eq 0 ]] && cert_fingerprint_sha2="$($OPENSSL x509 -noout -in $HOSTCERT -fingerprint -sha256 2>>$ERRFILE | sed -e 's/^.*Fingerprint=//' -e 's/://g' )"
else
cert_fingerprint_sha2="$RSA_CERT_FINGERPRINT_SHA2"
cert_fingerprint_sha2=${cert_fingerprint_sha2/SHA256 /}
fi
if ( [[ "$STARTTLS_PROTOCOL" =~ ldap ]] || [[ "$STARTTLS_PROTOCOL" =~ irc ]] ); then
prln_local_problem "STARTTLS/$STARTTLS_PROTOCOL and --ssl-native collide here"
return 1
fi
if [[ $(has_server_protocol ssl2) -ne 1 ]]; then
sslv2_sockets
else
[[ aaa == bbb ]] # provoke retrurn code=1
fi
case $? in
7) # strange reply, couldn't convert the cipher spec length to a hex number
pr_fixme "strange v2 reply "
outln " (rerun with DEBUG >=2)"
[[ $DEBUG -ge 3 ]] && hexdump -C "$TEMPDIR/$NODEIP.sslv2_sockets.dd" | head -1
fileout "$jsonID" "WARN" "received a strange SSLv2 reply (rerun with DEBUG>=2)" "$cve" "$cwe"
ret=1
;;
3) # vulnerable, [[ -n "$cert_fingerprint_sha2" ]] test is not needed as we should have RSA certificate here
lines=$(count_lines "$(hexdump -C "$TEMPDIR/$NODEIP.sslv2_sockets.dd" 2>/dev/null)")
debugme tm_out " ($lines lines) "
add_proto_offered ssl2 yes
if [[ "$lines" -gt 1 ]]; then
nr_ciphers_detected=$((V2_HELLO_CIPHERSPEC_LENGTH / 3))
if [[ 0 -eq "$nr_ciphers_detected" ]]; then
prln_svrty_high "CVE-2015-3197: SSLv2 supported but couldn't detect a cipher (NOT ok)";
fileout "$jsonID" "HIGH" "SSLv2 offered, but could not detect a cipher. Make sure you don't use this certificate elsewhere, see https://censys.io/ipv4?q=$cert_fingerprint_sha2" "$cve CVE-2015-3197" "$cwe" "$hint"
else
prln_svrty_critical "VULNERABLE (NOT ok), SSLv2 offered with $nr_ciphers_detected ciphers";
fileout "$jsonID" "CRITICAL" "VULNERABLE, SSLv2 offered with $nr_ciphers_detected ciphers. Make sure you don't use this certificate elsewhere, see https://censys.io/ipv4?q=$cert_fingerprint_sha2" "$cve" "$cwe" "$hint"
set_grade_cap "F" "Vulnerable to DROWN"
fi
outln "$spaces Make sure you don't use this certificate elsewhere, see:"
out "$spaces "
pr_url "https://censys.io/ipv4?q=$cert_fingerprint_sha2"
outln
fi
;;
*) prln_svrty_best "not vulnerable on this host and port (OK)"
fileout "$jsonID" "OK" "not vulnerable on this host and port" "$cve" "$cwe"
if [[ -n "$cert_fingerprint_sha2" ]]; then
outln "$spaces make sure you don't use this certificate elsewhere with SSLv2 enabled services"
out "$spaces "
pr_url "https://censys.io/ipv4?q=$cert_fingerprint_sha2"
outln " could help you to find out"
fileout "${jsonID}_hint" "INFO" "Make sure you don't use this certificate elsewhere with SSLv2 enabled services, see https://censys.io/ipv4?q=$cert_fingerprint_sha2" "$cve" "$cwe"
else
outln "$spaces no RSA certificate, thus certificate can't be used with SSLv2 elsewhere"
fileout "${jsonID}_hint" "INFO" "no RSA certificate, can't be used with SSLv2 elsewhere" "$cve" "$cwe"
fi
;;
esac
return $ret
}
# Browser Exploit Against SSL/TLS: don't use CBC Ciphers in SSLv3 TLSv1.0
run_beast(){
local hexc dash cbc_cipher sslvers auth mac
local -a ciph hexcode normalized_hexcode kx enc export2
local proto proto_hex
local -i i subret nr_ciphers=0 sclient_success=0
local detected_cbc_ciphers="" ciphers_to_test
local higher_proto_supported=""
local vuln_beast=false
local spaces=" "
local cr=$'\n'
local first=true
local continued=false
local cbc_cipher_list="EXP-RC2-CBC-MD5:IDEA-CBC-SHA:EXP-DES-CBC-SHA:DES-CBC-SHA:DES-CBC3-SHA:EXP-DH-DSS-DES-CBC-SHA:DH-DSS-DES-CBC-SHA:DH-DSS-DES-CBC3-SHA:EXP-DH-RSA-DES-CBC-SHA:DH-RSA-DES-CBC-SHA:DH-RSA-DES-CBC3-SHA:EXP-EDH-DSS-DES-CBC-SHA:EDH-DSS-DES-CBC-SHA:EDH-DSS-DES-CBC3-SHA:EXP-EDH-RSA-DES-CBC-SHA:EDH-RSA-DES-CBC-SHA:EDH-RSA-DES-CBC3-SHA:EXP-ADH-DES-CBC-SHA:ADH-DES-CBC-SHA:ADH-DES-CBC3-SHA:KRB5-DES-CBC-SHA:KRB5-DES-CBC3-SHA:KRB5-IDEA-CBC-SHA:KRB5-DES-CBC-MD5:KRB5-DES-CBC3-MD5:KRB5-IDEA-CBC-MD5:EXP-KRB5-DES-CBC-SHA:EXP-KRB5-RC2-CBC-SHA:EXP-KRB5-DES-CBC-MD5:EXP-KRB5-RC2-CBC-MD5:AES128-SHA:DH-DSS-AES128-SHA:DH-RSA-AES128-SHA:DHE-DSS-AES128-SHA:DHE-RSA-AES128-SHA:ADH-AES128-SHA:AES256-SHA:DH-DSS-AES256-SHA:DH-RSA-AES256-SHA:DHE-DSS-AES256-SHA:DHE-RSA-AES256-SHA:ADH-AES256-SHA:CAMELLIA128-SHA:DH-DSS-CAMELLIA128-SHA:DH-RSA-CAMELLIA128-SHA:DHE-DSS-CAMELLIA128-SHA:DHE-RSA-CAMELLIA128-SHA:ADH-CAMELLIA128-SHA:EXP1024-RC2-CBC-MD5:EXP1024-DES-CBC-SHA:EXP1024-DHE-DSS-DES-CBC-SHA:CAMELLIA256-SHA:DH-DSS-CAMELLIA256-SHA:DH-RSA-CAMELLIA256-SHA:DHE-DSS-CAMELLIA256-SHA:DHE-RSA-CAMELLIA256-SHA:ADH-CAMELLIA256-SHA:PSK-3DES-EDE-CBC-SHA:PSK-AES128-CBC-SHA:PSK-AES256-CBC-SHA:DHE-PSK-3DES-EDE-CBC-SHA:DHE-PSK-AES128-CBC-SHA:DHE-PSK-AES256-CBC-SHA:RSA-PSK-3DES-EDE-CBC-SHA:RSA-PSK-AES128-CBC-SHA:RSA-PSK-AES256-CBC-SHA:SEED-SHA:DH-DSS-SEED-SHA:DH-RSA-SEED-SHA:DHE-DSS-SEED-SHA:DHE-RSA-SEED-SHA:ADH-SEED-SHA:PSK-AES128-CBC-SHA256:PSK-AES256-CBC-SHA384:DHE-PSK-AES128-CBC-SHA256:DHE-PSK-AES256-CBC-SHA384:RSA-PSK-AES128-CBC-SHA256:RSA-PSK-AES256-CBC-SHA384:ECDH-ECDSA-DES-CBC3-SHA:ECDH-ECDSA-AES128-SHA:ECDH-ECDSA-AES256-SHA:ECDHE-ECDSA-DES-CBC3-SHA:ECDHE-ECDSA-AES128-SHA:ECDHE-ECDSA-AES256-SHA:ECDH-RSA-DES-CBC3-SHA:ECDH-RSA-AES128-SHA:ECDH-RSA-AES256-SHA:ECDHE-RSA-DES-CBC3-SHA:ECDHE-RSA-AES128-SHA:ECDHE-RSA-AES256-SHA:AECDH-DES-CBC3-SHA:AECDH-AES128-SHA:AECDH-AES256-SHA:SRP-3DES-EDE-CBC-SHA:SRP-RSA-3DES-EDE-CBC-SHA:SRP-DSS-3DES-EDE-CBC-SHA:SRP-AES-128-CBC-SHA:SRP-RSA-AES-128-CBC-SHA:SRP-DSS-AES-128-CBC-SHA:SRP-AES-256-CBC-SHA:SRP-RSA-AES-256-CBC-SHA:SRP-DSS-AES-256-CBC-SHA:ECDHE-PSK-3DES-EDE-CBC-SHA:ECDHE-PSK-AES128-CBC-SHA:ECDHE-PSK-AES256-CBC-SHA:ECDHE-PSK-AES128-CBC-SHA256:ECDHE-PSK-AES256-CBC-SHA384:PSK-CAMELLIA128-SHA256:PSK-CAMELLIA256-SHA384:DHE-PSK-CAMELLIA128-SHA256:DHE-PSK-CAMELLIA256-SHA384:RSA-PSK-CAMELLIA128-SHA256:RSA-PSK-CAMELLIA256-SHA384:ECDHE-PSK-CAMELLIA128-SHA256:ECDHE-PSK-CAMELLIA256-SHA384"
local cbc_ciphers_hex="00,06, 00,07, 00,08, 00,09, 00,0A, 00,0B, 00,0C, 00,0D, 00,0E, 00,0F, 00,10, 00,11, 00,12, 00,13, 00,14, 00,15, 00,16, 00,19, 00,1A, 00,1B, 00,1E, 00,1F, 00,21, 00,22, 00,23, 00,25, 00,26, 00,27, 00,29, 00,2A, 00,2F, 00,30, 00,31, 00,32, 00,33, 00,34, 00,35, 00,36, 00,37, 00,38, 00,39, 00,3A, 00,41, 00,42, 00,43, 00,44, 00,45, 00,46, 00,61, 00,62, 00,63, 00,84, 00,85, 00,86, 00,87, 00,88, 00,89, 00,8B, 00,8C, 00,8D, 00,8F, 00,90, 00,91, 00,93, 00,94, 00,95, 00,96, 00,97, 00,98, 00,99, 00,9A, 00,9B, 00,AE, 00,AF, 00,B2, 00,B3, 00,B6, 00,B7, C0,03, C0,04, C0,05, C0,08, C0,09, C0,0A, C0,0D, C0,0E, C0,0F, C0,12, C0,13, C0,14, C0,17, C0,18, C0,19, C0,1A, C0,1B, C0,1C, C0,1D, C0,1E, C0,1F, C0,21, C0,22, C0,34, C0,35, C0,36, C0,37, C0,38, C0,64, C0,65, C0,66, C0,67, C0,68, C0,69, C0,70, C0,71, C0,94, C0,95, C0,96, C0,97, C0,98, C0,99, C0,9A, C0,9B, FE,FE, FE,FF, FF,E0, FF,E1"
local has_dh_bits="$HAS_DH_BITS"
local using_sockets=true
local cve="CVE-2011-3389"
local cwe="CWE-20"
local hint=""
local jsonID="BEAST"
if [[ $VULN_COUNT -le $VULN_THRESHLD ]]; then
outln
pr_headlineln " Testing for BEAST vulnerability "
outln
fi
pr_bold " BEAST"; out " ($cve) "
if "$TLS13_ONLY" || ( [[ $(has_server_protocol ssl3) -eq 1 ]] && [[ $(has_server_protocol tls1) -eq 1 ]] ); then
pr_svrty_good "not vulnerable (OK)"
outln ", no SSL3 or TLS1"
fileout "$jsonID" "OK" "not vulnerable, no SSL3 or TLS1" "$cve" "$cwe"
return 0
fi
"$SSL_NATIVE" && using_sockets=false
# $cbc_ciphers_hex has 126 ciphers, we omitted SRP-AES-256-CBC-SHA bc the trailing 00,ff below will pose
# a problem for ACE loadbalancers otherwise. So in case we know this is not true, we'll re-add it
! "$SERVER_SIZE_LIMIT_BUG" && "$using_sockets" && cbc_ciphers_hex="$cbc_ciphers_hex, C0,20"
[[ $TLS_NR_CIPHERS == 0 ]] && using_sockets=false
if "$using_sockets" || [[ $OSSL_VER_MAJOR -lt 1 ]]; then
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
hexc="${TLS_CIPHER_HEXCODE[i]}"
if [[ ${#hexc} -eq 9 ]] && [[ "${TLS_CIPHER_RFC_NAME[i]}" =~ CBC ]] && \
[[ ! "${TLS_CIPHER_RFC_NAME[i]}" =~ SHA256 ]] && [[ ! "${TLS_CIPHER_RFC_NAME[i]}" =~ SHA384 ]]; then
ciph[nr_ciphers]="${TLS_CIPHER_OSSL_NAME[i]}"
hexcode[nr_ciphers]="${hexc:2:2},${hexc:7:2}"
rfc_ciph[nr_ciphers]="${TLS_CIPHER_RFC_NAME[i]}"
kx[nr_ciphers]="${TLS_CIPHER_KX[i]}"
enc[nr_ciphers]="${TLS_CIPHER_ENC[i]}"
export2[nr_ciphers]="${TLS_CIPHER_EXPORT[i]}"
ossl_supported[nr_ciphers]=${TLS_CIPHER_OSSL_SUPPORTED[i]}
if "$using_sockets" && "$WIDE" && ! "$has_dh_bits" && \
( [[ ${kx[nr_ciphers]} == Kx=ECDH ]] || [[ ${kx[nr_ciphers]} == Kx=DH ]] || [[ ${kx[nr_ciphers]} == Kx=EDH ]] ); then
ossl_supported[nr_ciphers]=false
fi
if [[ "${hexc:2:2}" == 00 ]]; then
normalized_hexcode[nr_ciphers]="x${hexc:7:2}"
else
normalized_hexcode[nr_ciphers]="x${hexc:2:2}${hexc:7:2}"
fi
nr_ciphers+=1
fi
done
else
# no sockets, openssl
while read hexc dash ciph[nr_ciphers] sslvers kx[nr_ciphers] auth enc[nr_ciphers] mac export2[nr_ciphers]; do
if [[ ":${cbc_cipher_list}:" =~ :${ciph[nr_ciphers]}: ]]; then
ossl_supported[nr_ciphers]=true
if [[ "${hexc:2:2}" == "00" ]]; then
normalized_hexcode[nr_ciphers]="x${hexc:7:2}"
else
normalized_hexcode[nr_ciphers]="x${hexc:2:2}${hexc:7:2}"
fi
nr_ciphers+=1
fi
done < <(actually_supported_osslciphers 'ALL:COMPLEMENTOFALL:@STRENGTH' 'ALL' "-tls1 -V")
fi
# first determine whether it's mitigated by higher protocols
for proto in tls1_1 tls1_2; do
subret=$(has_server_protocol "$proto")
if [[ $subret -eq 0 ]]; then
case $proto in
tls1_1) higher_proto_supported+=" TLSv1.1" ;;
tls1_2) higher_proto_supported+=" TLSv1.2" ;;
esac
elif [[ $subret -eq 2 ]]; then
$OPENSSL s_client $(s_client_options "-state -"${proto}" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") 2>>$ERRFILE >$TMPFILE </dev/null
if sclient_connect_successful $? $TMPFILE; then
higher_proto_supported+=" $(get_protocol $TMPFILE)"
add_proto_offered "$proto" yes
fi
fi
done
for proto in ssl3 tls1; do
if [[ "$proto" == ssl3 ]] && ! "$using_sockets" && ! locally_supported "-${proto}"; then
continued=true
out " "
continue
fi
subret=$(has_server_protocol "$proto")
if [[ $subret -eq 0 ]]; then
sclient_success=0
elif [[ $subret -eq 1 ]]; then
sclient_success=1
elif [[ "$proto" != "ssl3" ]] || "$HAS_SSL3"; then
$OPENSSL s_client $(s_client_options "-"$proto" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE
sclient_success=$?
else
tls_sockets "00" "$TLS_CIPHER"
sclient_success=$?
fi
if [[ $sclient_success -ne 0 ]]; then # protocol supported?
if "$continued"; then # second round: we hit TLS1
if "$HAS_SSL3" || "$using_sockets"; then
pr_svrty_good "not vulnerable (OK)" ; outln ", no SSL3 or TLS1"
fileout "$jsonID" "OK" "not vulnerable, no SSL3 or TLS1" "$cve" "$cwe"
else
prln_svrty_good "no TLS1 (OK)"
fileout "$jsonID" "OK" "not vulnerable, no TLS1" "$cve" "$cwe"
fi
return 0
else # protocol not succeeded but it's the first time
continued=true
continue # protocol not supported, so we do not need to check each cipher with that protocol
fi
fi # protocol succeeded
add_proto_offered "$proto" yes
# now we test in one shot with the precompiled ciphers
if "$using_sockets"; then
case "$proto" in
"ssl3") proto_hex="00" ;;
"tls1") proto_hex="01" ;;
esac
tls_sockets "$proto_hex" "$cbc_ciphers_hex, 00,ff"
[[ $? -eq 0 ]] || continue
else
$OPENSSL s_client $(s_client_options "-"$proto" -cipher "$cbc_cipher_list" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE || continue
fi
detected_cbc_ciphers=""
for ((i=0; i<nr_ciphers; i++)); do
ciphers_found[i]=false
sigalg[nr_ciphers]=""
done
while true; do
[[ "$proto" == ssl3 ]] && ! "$HAS_SSL3" && break
ciphers_to_test=""
for (( i=0; i < nr_ciphers; i++ )); do
! "${ciphers_found[i]}" && "${ossl_supported[i]}" && ciphers_to_test+=":${ciph[i]}"
done
[[ -z "$ciphers_to_test" ]] && break
$OPENSSL s_client $(s_client_options "-cipher "${ciphers_to_test:1}" -"${proto}" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE || break
cbc_cipher=$(get_cipher $TMPFILE)
[[ -z "$cbc_cipher" ]] && break
for (( i=0; i < nr_ciphers; i++ )); do
[[ "$cbc_cipher" == "${ciph[i]}" ]] && break
done
ciphers_found[i]=true
if [[ "$DISPLAY_CIPHERNAMES" =~ openssl ]] || [[ "${rfc_ciph[i]}" == - ]]; then
detected_cbc_ciphers+="${ciph[i]} "
else
detected_cbc_ciphers+="${rfc_ciph[i]} "
fi
vuln_beast=true
if "$WIDE" && ( [[ ${kx[i]} == Kx=ECDH ]] || [[ ${kx[i]} == Kx=DH ]] || [[ ${kx[i]} == Kx=EDH ]] ); then
dhlen=$(read_dhbits_from_file "$TMPFILE" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$WIDE" && "$SHOW_SIGALGO" && grep -q "\-\-\-\-\-BEGIN CERTIFICATE\-\-\-\-\-" $TMPFILE && \
sigalg[i]="$(read_sigalg_from_file "$TMPFILE")"
done
if "$using_sockets"; then
while true; do
ciphers_to_test=""
for (( i=0; i < nr_ciphers; i++ )); do
! "${ciphers_found[i]}" && ciphers_to_test+=", ${hexcode[i]}"
done
[[ -z "$ciphers_to_test" ]] && break
if "$WIDE" && "$SHOW_SIGALGO"; then
tls_sockets "$proto_hex" "${ciphers_to_test:2}, 00,ff" "all"
else
tls_sockets "$proto_hex" "${ciphers_to_test:2}, 00,ff" "ephemeralkey"
fi
[[ $? -ne 0 ]] && break
cbc_cipher=$(get_cipher "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
for (( i=0; i < nr_ciphers; i++ )); do
[[ "$cbc_cipher" == "${rfc_ciph[i]}" ]] && break
done
[[ $i -eq $nr_ciphers ]] && break
ciphers_found[i]=true
if ( [[ "$DISPLAY_CIPHERNAMES" =~ openssl ]] && [[ "${ciph[i]}" != - ]] ) || [[ "${rfc_ciph[i]}" == - ]]; then
detected_cbc_ciphers+="${ciph[i]} "
else
detected_cbc_ciphers+="${rfc_ciph[i]} "
fi
vuln_beast=true
if "$WIDE" && ( [[ ${kx[i]} == Kx=ECDH ]] || [[ ${kx[i]} == Kx=DH ]] || [[ ${kx[i]} == Kx=EDH ]] ); then
dhlen=$(read_dhbits_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$WIDE" && "$SHOW_SIGALGO" && [[ -r "$HOSTCERT" ]] && \
sigalg[i]="$(read_sigalg_from_file "$HOSTCERT")"
done
fi
if "$WIDE" && [[ -n "$detected_cbc_ciphers" ]]; then
out "\n "; pr_underline "$(toupper $proto):\n";
if "$first"; then
neat_header
fi
first=false
for (( i=0; i < nr_ciphers; i++ )); do
if "${ciphers_found[i]}" || "$SHOW_EACH_C"; then
neat_list "$(tolower "${normalized_hexcode[i]}")" "${ciph[i]}" "${kx[i]}" "${enc[i]}" "${export2[i]}" "${ciphers_found[i]}"
if "$SHOW_EACH_C"; then
if "${ciphers_found[i]}"; then
if [[ -n "$higher_proto_supported" ]]; then
pr_svrty_low "available"
else
pr_svrty_medium "available"
fi
else
pr_deemphasize "not a/v"
fi
fi
outln "${sigalg[i]}"
fi
done
fi
if ! "$WIDE"; then
if [[ -n "$detected_cbc_ciphers" ]]; then
fileout "${jsonID}_CBC_$(toupper $proto)" "MEDIUM" "$detected_cbc_ciphers" "$cve" "$cwe" "$hint"
! "$first" && out "$spaces"
out "$(toupper $proto): "
[[ -n "$higher_proto_supported" ]] && \
pr_svrty_low "$(out_row_aligned_max_width "$detected_cbc_ciphers" " " $TERM_WIDTH)" || \
pr_svrty_medium "$(out_row_aligned_max_width "$detected_cbc_ciphers" " " $TERM_WIDTH)"
outln
detected_cbc_ciphers="" # empty for next round
first=false
else
[[ $proto == tls1 ]] && ! $first && echo -n "$spaces "
prln_svrty_good "no CBC ciphers for $(toupper $proto) (OK)"
first=false
fi
else
if ! "$vuln_beast" ; then
prln_svrty_good "no CBC ciphers for $(toupper $proto) (OK)"
fileout "${jsonID}_CBC_$(toupper $proto)" "OK" "No CBC ciphers for $(toupper $proto)" "$cve" "$cwe"
fi
fi
done # for proto in ssl3 tls1
if "$vuln_beast"; then
if [[ -n "$higher_proto_supported" ]]; then
if "$WIDE"; then
outln; out " "
# NOT ok seems too harsh for me if we have TLS >1.0
pr_svrty_low "VULNERABLE"
outln " -- but also supports higher protocols (possible mitigation) $higher_proto_supported"
outln
else
out "$spaces"
pr_svrty_low "VULNERABLE"
outln " -- but also supports higher protocols $higher_proto_supported (likely mitigated)"
fi
fileout "$jsonID" "LOW" "VULNERABLE -- but also supports higher protocols $higher_proto_supported (likely mitigated)" "$cve" "$cwe" "$hint"
else
if "$WIDE"; then
outln
else
out "$spaces"
fi
pr_svrty_medium "VULNERABLE"
outln " -- and no higher protocols as mitigation supported"
fileout "$jsonID" "MEDIUM" "VULNERABLE -- and no higher protocols as mitigation supported" "$cve" "$cwe" "$hint"
set_grade_cap "B" "Vulnerable to BEAST"
fi
fi
"$first" && ! "$vuln_beast" && prln_svrty_good "no CBC ciphers found for any protocol (OK)"
"$using_sockets" && HAS_DH_BITS="$has_dh_bits"
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
# This is a quick test for Winshock, MS14-066, a vulnerability in the TLS stack of Microsoft which leads to RCE.
# This vulnerability affected all SChannel services -- most notably RDP (port 3398 normally). See
# https://support.microsoft.com/en-us/help/2992611/ms14-066-vulnerability-in-schannel-could-allow-remote-code-execution-n
# and http://www.securitysift.com/exploiting-ms14-066-cve-2014-6321-aka-winshock for "exploiting"/crashing lsass.exe.
# What we do here is giving a strong hint.
#
# First we check whether TLS 1.3 is available. Then with the fix MS introduced came additional ciphers
# TLS_DHE_RSA_WITH_AES_256_GCM_SHA384 TLS_DHE_RSA_WITH_AES_128_GCM_SHA256 TLS_RSA_WITH_AES_256_GCM_SHA384 TLS_RSA_WITH_AES_128_GCM_SHA256
# = DHE-RSA-AES256-GCM-SHA384 DHE-RSA-AES128-GCM-SHA256 AES256-GCM-SHA384 AES128-GCM-SHA256.
# We also check for the absence of ciphers which came in way later (ECDHE-RSA-AES128-GCM-SHA256 / ECDHE-RSA-AES256-GCM-SHA384), or
# more ciphers like ARIA, CCM, CAMELLIA and CHACHAPOLY. (Those ciphers could also be retrieved from our array TLS_CIPHER_RFC_NAME[i]
# and using TLS_CIPHER_HEXCODE[i]. We may want to # do that later. We check for all this in sockets only to avoid overhead.)
# Then we check for absence of elliptical curves and TLS extensions.
# That all should minimize false # positives because of middle boxes, proxies and later Windows versions.
# The last straw then is to check for webserver banners (http.sys, IIS/8.0 and IIS/8.5).
#
run_winshock() {
local wsfixed_ciphers='00,9F, 00,9D, 00,9E, 00,9C'
local aria_ciphers='C0,3D,C0,3F,C0,41,C0,43,C0,45,C0,47,C0,49,C0,4B,C0,4D,C0,4F,C0,51,C0,53,C0,55,C0,57,C0,59,C0,5B,C0,5D,C0,5F,C0,61,C0,63,C0,65,C0,67,C0,69,C0,6B,C0,6D,C0,6F,C0,71,C0,3C,C0,3E,C0,40,C0,42,C0,44,C0,46,C0,48,C0,4A,C0,4C,C0,4E,C0,50,C0,52,C0,54,C0,56,C0,58,C0,5A,C0,5C,C0,5E,C0,60,C0,62,C0,64,C0,66,C0,68,C0,6A,C0,6C,C0,6E,C0,70'
local camellia_ciphers='C0,9B,C0,99,C0,97,C0,95,C0,77,C0,73,00,C4,00,C3,00,C2,00,C1,00,88,00,87,00,86,00,85,00,C5,00,89,C0,79,C0,75,00,C0,00,84,C0,7B,C0,7D,C0,7F,C0,81,C0,83,C0,85,C0,87,C0,89,C0,8B,C0,8D,C0,8F,C0,91,C0,93,C0,76,C0,72,00,BE,00,BD,00,BC,00,BB,00,45,00,44,00,43,00,42,00,BF,00,46,C0,78,C0,74,00,BA,00,41,C0,9A,C0,98,C0,96,C0,94,C0,7A,C0,7C,C0,7E,C0,80,C0,82,C0,84,C0,86,C0,88,C0,8A,C0,8C,C0,8E,C0,90,C0,92'
local chacha_ccm_ciphers='CC,14,CC,13,CC,15,CC,A9,CC,A8,CC,AA,C0,AF,C0,AD,C0,A3,C0,9F,CC,AE,CC,AD,CC,AC,C0,AB,C0,A7,C0,A1,C0,9D,CC,AB,C0,A9,C0,A5,16,B7,16,B8,13,04,13,05,C0,AE,C0,AC,C0,A2,C0,9E,C0,AA,C0,A6,C0,A0,C0,9C,C0,A8,C0,A4'
# TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 / TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384 = ECDHE-RSA-AES128-GCM-SHA256 / ECDHE-RSA-AES256-GCM-SHA384
# came in Server 2016, see https://notsomany.com/2016/08/26/achieve-a-on-sslabs-iis-8-5-windows-2012-r2/
# https://docs.microsoft.com/en-us/windows/win32/secauthn/cipher-suites-in-schannel
local more_excluded_ciphers='C0,2F, C0,30'
# These are the three NIST curves allowed only. Keep in mind prime256v1=secp256r1 and MS labels them as P256, P384 and P521
local allowed_curves="prime256v1 secp384r1 secp521r1"
local curve="" tls_ext=""
local -i sclient_success=0
local server_banner=""
local check_patches=" - check patches locally to confirm"
local cve="CVE-2014-6321"
local cwe="CWE-94"
local jsonID="winshock"
if [[ $VULN_COUNT -le $VULN_THRESHLD ]]; then
outln
pr_headlineln " Testing for winshock vulnerability "
outln
fi
pr_bold " Winshock"; out " ($cve), experimental "
if [[ "$(has_server_protocol "tls1_3")" -eq 0 ]] ; then
# There's no MS server supporting TLS 1.3. Winshock was way back in time
pr_svrty_best "not vulnerable (OK)"
debugme echo " - TLS 1.3 found"
fileout "$jsonID" "OK" "not vulnerable " "$cve" "$cwe"
outln
return 0
fi
if ( [[ "$STARTTLS_PROTOCOL" =~ ldap ]] || [[ "$STARTTLS_PROTOCOL" =~ irc ]] ); then
prln_local_problem "STARTTLS/$STARTTLS_PROTOCOL and --ssl-native collide here"
return 1
fi
# Now we check whether any CAMELLIA, ARIA, CCM or CHACHA cipher is available.
# We do this in two shots in order to stay below the 128 cipher limit
tls_sockets "03" "${aria_ciphers},${chacha_ccm_ciphers}, 00,ff"
sclient_success=$?
if [[ $sclient_success -eq 0 ]] || [[ "$sclient_success" -eq 2 ]]; then
pr_svrty_best "not vulnerable (OK)" ; outln " - ARIA, CHACHA or CCM ciphers found"
fileout "$jsonID" "OK" "not vulnerable " "$cve" "$cwe"
return 0
fi
tls_sockets "03" "${camellia_ciphers},${more_excluded_ciphers}, 00,ff"
sclient_success=$?
if [[ $sclient_success -eq 0 ]] || [[ "$sclient_success" -eq 2 ]]; then
pr_svrty_best "not vulnerable (OK)"; outln " - CAMELLIA or ECDHE_RSA GCM ciphers found"
fileout "$jsonID" "OK" "not vulnerable " "$cve" "$cwe"
return 0
fi
# Now we need to check the fixed ciphers
tls_sockets "03" "${wsfixed_ciphers}, 00,ff"
sclient_success=$?
if [[ $sclient_success -eq 0 ]] || [[ "$sclient_success" -eq 2 ]]; then
# has rollup ciphers
pr_svrty_best "not vulnerable (OK)"; outln " - GCM rollup ciphers found"
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
return 0
elif [[ $sclient_success -ne 1 ]]; then
prln_warning "check failed, connect problem"
fileout "$jsonID" "WARN" "check failed, connect problem" "$cve" "$cwe"
return 1
fi
# Basic idea: https://en.wikipedia.org/wiki/Comparison_of_TLS_implementations#Supported_elliptic_curves
# [[ -z "$CURVES_OFFERED" ]] && sub_check_curves
if [[ -n "$CURVES_OFFERED" ]]; then
# Check whether there are any additional curves besides $allowed_curves
for curve in $CURVES_OFFERED; do
if ! [[ $allowed_curves =~ $curve ]]; then
pr_svrty_best "not vulnerable (OK)"; outln " - curve $curve detected"
fileout "$jsonID" "OK" "not vulnerable - curve $curve detected" "$cve" "$cwe"
return 0
fi
done
fi
#FIXME: The catch is that when a user didn't invoke run_fs() before, this wasn't processed + CURVES_OFFERED
# is empty. So we could call it like above but need to move curves detection into a seperate function
# (~ sub_check_curves) which is some work. But also for the sake of clean code this needs to be done.
[[ -z "$TLS_EXTENSIONS" ]] && determine_tls_extensions
# Basis of the following https://en.wikipedia.org/wiki/Comparison_of_TLS_implementations#Extensions
# Our standard: https://www.iana.org/assignments/tls-extensiontype-values/tls-extensiontype-values.xhtml
# According to Wikipedia above these are the ones which can be detected unders version of Windows
# Secure Renegotiation, Server Name Indication, Certificate Status Request, Supplemental Data, Extended Master Secret, ALPN
# supplemental_data(23) (RFC 4680) seems to have been overwritten by extended master secret(23) RFC 7627
# local -a allowed_tls_ext=("server name" "status_request" "extended master secret" "application layer protocol negotiation")
# Instead we rather focus on the ones which according to that source weren't available
# Encrypt-then-MAC, Maximum Fragment Length, Keying Material Exporter, TLS Fallback SCSV, ClientHello Padding
# Padding is client side. Don't know what they mean by the fallback SCSV. That is not an extension
local -a forbidden_tls_ext=("encrypt-then-mac" "max fragment length")
# Open whether ec_point_formats, supported_groups(=elliptic_curves), heartbeat are supported under windows <=2012
# key_share and supported_versions are extensions which came with TLS 1.3. We checked the protocol before.
if [[ -n "$TLS_EXTENSIONS" ]]; then
# Check whether there are any TLS extension which should not be available under <= Windows 2012 R2
for tls_ext in $TLS_EXTENSIONS; do
# We use the whole array, got to be careful when the array becomes bigger (unintented match)
if [[ ${forbidden_tls_ext[@]} =~ $tls_ext ]]; then
pr_svrty_best "not vulnerable (OK)"; outln " - TLS extension $tls_ext detected"
fileout "$jsonID" "OK" "not vulnerable - TLS extension $tls_ext detected" "$cve" "$cwe"
return 0
fi
done
fi
# More would be possible if we look @ the following:
# See also https://github.com/cisco/joy/blob/master/fingerprinting/resources/fingerprint_db.json.gz
# https://resources.sei.cmu.edu/asset_files/Presentation/2019_017_001_539902.pdf
# https://raw.githubusercontent.com/cisco/joy/master/doc/using-joy-fingerprinting-00.pdf
# Now the solid determination more or less done. What's left now is to detect the service
# and perform an educated guess.
# Next we weed out is whether we run HTTP or RDP (on standard port).
# Using the experimental flag we can test it also on other ports / services
if [[ $SERVICE != HTTP ]] && [[ $PORT != 3389 ]] && ! "$EXPERIMENTAL"; then
pr_svrty_best "not vulnerable (OK)"; outln " - no HTTP or RDP"
fileout "$jsonID" "OK" "not vulnerable - no HTTP or RDP" "$cve" "$cwe"
return 0
fi
if [[ $SERVICE != HTTP ]] && [[ $PORT == 3389 ]]; then
# We take a security guess here (better safe than sorry) for RDP as we don't have a banner
out "probably "; pr_svrty_critical "vulnerable (NOT ok)"; outln "$check_patches"
fileout "${jsonID}" "CRITICAL" "probably vulnerable (NOT OK) $check_patches"
return 0
fi
# Now we have potentially vulnerable HTTP servers left where we grab the server banner.
# First choice for that is the HTTP header # file which we retrieved in a default run.
# From the service detection we also should have a header though as a fall back.
if [[ -s $HEADERFILE ]]; then
server_banner="$(grep -Eai '^Server:' $HEADERFILE)"
elif [[ -s "$TEMPDIR/$NODEIP.service_detection.txt" ]]; then
server_banner="$(grep -Eai '^Server:' "$TEMPDIR/$NODEIP.service_detection.txt")"
elif "$EXPERIMENTAL"; then
# If testing e.g. an SMTP server
:
else
# We can't use run_http_header here as it messes up the screen. We could automatically
# run it when --winshock is requested though but this should suffice here.
prln_warning "check failed, rerun with cmd line option --header "
fileout "$jsonID" "WARN" "check failed, connect problem" "$cve" "$cwe"
return 1
fi
if [[ $server_banner =~ Microsoft-IIS\/8.5 ]]; then
# Windows 2012 R2 is less likely than Windows 2012
out "probably "; pr_svrty_critical "vulnerable (NOT ok)"; outln "$check_patches"
fileout "${jsonID}" "CRITICAL" "probably vulnerable (NOT OK) $check_patches"
elif [[ $server_banner =~ Microsoft-IIS\/8.0 ]]; then
out "likely "; pr_svrty_critical "VULNERABLE (NOT ok)"; outln "$check_patches"
fileout "${jsonID}" "CRITICAL" "likely vulnerable (NOT OK) $check_patches"
elif [[ $server_banner =~ Microsoft-HTTPAPI\/2.0 ]]; then
# This is http.sys. It may or may not indicate a 2012 server. IIS is not yet configured though.
# So we have a peek on port 80
http_get $NODE "$TEMPDIR/$NODE.$NODEIP.http-header.txt"
server_banner="$(grep -Eai '^Server:' $TEMPDIR/$NODE.$NODEIP.http-header.txt)"
if [[ $server_banner =~ Microsoft-IIS\/8.5 ]]; then
out "probably "; pr_svrty_critical "vulnerable (NOT ok)"; outln "$check_patches"
fileout "${jsonID}" "CRITICAL" "probably vulnerable (NOT OK) $check_patches"
elif [[ $server_banner =~ Microsoft-IIS\/8.0 ]]; then
out "likely "; pr_svrty_critical "VULNERABLE (NOT ok)"; outln "$check_patches"
fileout "${jsonID}" "CRITICAL" "likely vulnerable (NOT OK) $check_patches"
else
out "likely "; prln_svrty_best "not vulnerable (OK)"
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
outln
fi
elif "$EXPERIMENTAL"; then
out "seems "; pr_svrty_critical "vulnerable (NOT ok)"; outln "$check_patches"
fileout "${jsonID}" "CRITICAL" "seems vulnerable (NOT OK) $check_patches"
else
pr_svrty_best "not vulnerable (OK)"
outln " - doesn't seem to be IIS 8.x"
fileout "$jsonID" "OK" "not vulnerable - doesn't seem to be IIS 8.x" "$cve" "$cwe"
fi
return 0
}
# https://web.archive.org/web/20200324101422/http://www.isg.rhul.ac.uk/tls/Lucky13.html
# Paper: https://doi.org/10.1109/SP.2013.42
# in a nutshell: don't offer CBC suites (again). MAC as a fix for padding oracles is not enough. Best: TLS v1.2+ AES GCM
run_lucky13() {
local spaces=" "
local cbc_ciphers="ECDHE-RSA-AES256-SHA384:ECDHE-ECDSA-AES256-SHA384:ECDHE-RSA-AES256-SHA:ECDHE-ECDSA-AES256-SHA:SRP-DSS-AES-256-CBC-SHA:SRP-RSA-AES-256-CBC-SHA:SRP-AES-256-CBC-SHA:RSA-PSK-AES256-CBC-SHA384:DHE-PSK-AES256-CBC-SHA384:DHE-PSK-AES256-CBC-SHA:ECDHE-PSK-CAMELLIA256-SHA384:RSA-PSK-CAMELLIA256-SHA384:DHE-PSK-CAMELLIA256-SHA384:PSK-AES256-CBC-SHA384:PSK-CAMELLIA256-SHA384:DHE-RSA-AES256-SHA256:DHE-DSS-AES256-SHA256:DH-RSA-AES256-SHA256:DH-DSS-AES256-SHA256:DHE-RSA-AES256-SHA:DHE-DSS-AES256-SHA:DH-RSA-AES256-SHA:DH-DSS-AES256-SHA:ECDHE-RSA-CAMELLIA256-SHA384:ECDHE-ECDSA-CAMELLIA256-SHA384:DHE-RSA-CAMELLIA256-SHA256:DHE-DSS-CAMELLIA256-SHA256:DH-RSA-CAMELLIA256-SHA256:DH-DSS-CAMELLIA256-SHA256:DHE-RSA-CAMELLIA256-SHA:DHE-DSS-CAMELLIA256-SHA:DH-RSA-CAMELLIA256-SHA:DH-DSS-CAMELLIA256-SHA:AECDH-AES256-SHA:ADH-AES256-SHA256:ADH-AES256-SHA:ADH-CAMELLIA256-SHA256:ADH-CAMELLIA256-SHA:ECDH-RSA-AES256-SHA384:ECDH-ECDSA-AES256-SHA384:ECDH-RSA-AES256-SHA:ECDH-ECDSA-AES256-SHA:ECDH-RSA-CAMELLIA256-SHA384:ECDH-ECDSA-CAMELLIA256-SHA384:AES256-SHA256:AES256-SHA:CAMELLIA256-SHA256:ECDHE-PSK-AES256-CBC-SHA384:ECDHE-PSK-AES256-CBC-SHA:CAMELLIA256-SHA:RSA-PSK-AES256-CBC-SHA:PSK-AES256-CBC-SHA:ECDHE-RSA-AES128-SHA256:ECDHE-ECDSA-AES128-SHA256:ECDHE-RSA-AES128-SHA:ECDHE-ECDSA-AES128-SHA:SRP-DSS-AES-128-CBC-SHA:SRP-RSA-AES-128-CBC-SHA:SRP-AES-128-CBC-SHA:DHE-RSA-AES128-SHA256:DHE-DSS-AES128-SHA256:DH-RSA-AES128-SHA256:DH-DSS-AES128-SHA256:DHE-RSA-AES128-SHA:DHE-DSS-AES128-SHA:DH-RSA-AES128-SHA:DH-DSS-AES128-SHA:ECDHE-RSA-CAMELLIA128-SHA256:ECDHE-ECDSA-CAMELLIA128-SHA256:DHE-RSA-CAMELLIA128-SHA256:DHE-DSS-CAMELLIA128-SHA256:DH-RSA-CAMELLIA128-SHA256:DH-DSS-CAMELLIA128-SHA256:DHE-RSA-SEED-SHA:DHE-DSS-SEED-SHA:DH-RSA-SEED-SHA:DH-DSS-SEED-SHA:DHE-RSA-CAMELLIA128-SHA:DHE-DSS-CAMELLIA128-SHA:DH-RSA-CAMELLIA128-SHA:DH-DSS-CAMELLIA128-SHA:AECDH-AES128-SHA:ADH-AES128-SHA256:ADH-AES128-SHA:ADH-CAMELLIA128-SHA256:ADH-SEED-SHA:ADH-CAMELLIA128-SHA:ECDH-RSA-AES128-SHA256:ECDH-ECDSA-AES128-SHA256:ECDH-RSA-AES128-SHA:ECDH-ECDSA-AES128-SHA:ECDH-RSA-CAMELLIA128-SHA256:ECDH-ECDSA-CAMELLIA128-SHA256:AES128-SHA256:AES128-SHA:CAMELLIA128-SHA256:ECDHE-PSK-AES128-CBC-SHA256:ECDHE-PSK-AES128-CBC-SHA:RSA-PSK-AES128-CBC-SHA256:DHE-PSK-AES128-CBC-SHA256:DHE-PSK-AES128-CBC-SHA:SEED-SHA:CAMELLIA128-SHA:ECDHE-PSK-CAMELLIA128-SHA256:RSA-PSK-CAMELLIA128-SHA256:DHE-PSK-CAMELLIA128-SHA256:PSK-AES128-CBC-SHA256:PSK-CAMELLIA128-SHA256:IDEA-CBC-SHA:RSA-PSK-AES128-CBC-SHA:PSK-AES128-CBC-SHA:KRB5-IDEA-CBC-SHA:KRB5-IDEA-CBC-MD5:ECDHE-RSA-DES-CBC3-SHA:ECDHE-ECDSA-DES-CBC3-SHA:SRP-DSS-3DES-EDE-CBC-SHA:SRP-RSA-3DES-EDE-CBC-SHA:SRP-3DES-EDE-CBC-SHA:EDH-RSA-DES-CBC3-SHA:EDH-DSS-DES-CBC3-SHA:DH-RSA-DES-CBC3-SHA:DH-DSS-DES-CBC3-SHA:AECDH-DES-CBC3-SHA:ADH-DES-CBC3-SHA:ECDH-RSA-DES-CBC3-SHA:ECDH-ECDSA-DES-CBC3-SHA:DES-CBC3-SHA:RSA-PSK-3DES-EDE-CBC-SHA:PSK-3DES-EDE-CBC-SHA:KRB5-DES-CBC3-SHA:KRB5-DES-CBC3-MD5:ECDHE-PSK-3DES-EDE-CBC-SHA:DHE-PSK-3DES-EDE-CBC-SHA:EXP1024-DHE-DSS-DES-CBC-SHA:EDH-RSA-DES-CBC-SHA:EDH-DSS-DES-CBC-SHA:DH-RSA-DES-CBC-SHA:DH-DSS-DES-CBC-SHA:ADH-DES-CBC-SHA:EXP1024-DES-CBC-SHA:DES-CBC-SHA:KRB5-DES-CBC-SHA:KRB5-DES-CBC-MD5:EXP-EDH-RSA-DES-CBC-SHA:EXP-EDH-DSS-DES-CBC-SHA:EXP-ADH-DES-CBC-SHA:EXP-DES-CBC-SHA:EXP-RC2-CBC-MD5:EXP-KRB5-RC2-CBC-SHA:EXP-KRB5-DES-CBC-SHA:EXP-KRB5-RC2-CBC-MD5:EXP-KRB5-DES-CBC-MD5:EXP-DH-DSS-DES-CBC-SHA:EXP-DH-RSA-DES-CBC-SHA"
cbc_ciphers_hex1="c0,28, c0,24, c0,14, c0,0a, c0,22, c0,21, c0,20, 00,b7, 00,b3, 00,91, c0,9b, c0,99, c0,97, 00,af, c0,95, 00,6b, 00,6a, 00,69, 00,68, 00,39, 00,38, 00,37, 00,36, c0,77, c0,73, 00,c4, 00,c3, 00,c2, 00,c1, 00,88, 00,87, 00,86, 00,85, c0,19, 00,6d, 00,3a, 00,c5, 00,89, c0,2a, c0,26, c0,0f, c0,05, c0,79, c0,75, 00,3d, 00,35, 00,c0, c0,38, c0,36, 00,84, 00,95, 00,8d, c0,3d, c0,3f, c0,41, c0,43, c0,45, c0,47, c0,49, c0,4b, c0,4d, c0,4f, c0,65, c0,67, c0,69, c0,71, c0,27, c0,23, c0,13, c0,09, c0,1f, c0,1e, c0,1d, 00,67, 00,40, 00,3f, 00,3e, 00,33, 00,32, 00,31, 00,30, c0,76, c0,72, 00,be, 00,bd, 00,bc, 00,bb, 00,9a, 00,99, 00,98, 00,97, 00,45, 00,44, 00,43, 00,42, c0,18, 00,6c, 00,34, 00,bf, 00,9b, 00,46, c0,29, c0,25, c0,0e, c0,04, c0,78, c0,74, 00,3c, 00,2f, 00,ba"
cbc_ciphers_hex2="c0,37, c0,35, 00,b6, 00,b2, 00,90, 00,96, 00,41, c0,9a, c0,98, c0,96, 00,ae, c0,94, 00,07, 00,94, 00,8c, 00,21, 00,25, c0,3c, c0,3e, c0,40, c0,42, c0,44, c0,46, c0,48, c0,4a, c0,4c, c0,4e, c0,64, c0,66, c0,68, c0,70, c0,12, c0,08, c0,1c, c0,1b, c0,1a, 00,16, 00,13, 00,10, 00,0d, c0,17, 00,1b, c0,0d, c0,03, 00,0a, 00,93, 00,8b, 00,1f, 00,23, c0,34, 00,8f, fe,ff, ff,e0, 00,63, 00,15, 00,12, 00,0f, 00,0c, 00,1a, 00,62, 00,09, 00,61, 00,1e, 00,22, fe,fe, ff,e1, 00,14, 00,11, 00,19, 00,08, 00,06, 00,27, 00,26, 00,2a, 00,29, 00,0b, 00,0e"
local has_dh_bits="$HAS_DH_BITS"
local -i nr_supported_ciphers=0 sclient_success
local using_sockets=true
local cve="CVE-2013-0169"
local cwe="CWE-310"
local hint=""
local jsonID="LUCKY13"
if [[ $VULN_COUNT -le $VULN_THRESHLD ]]; then
outln
pr_headlineln " Testing for LUCKY13 vulnerability "
outln
fi
pr_bold " LUCKY13"; out " ($cve), experimental "
if "$TLS13_ONLY"; then
pr_svrty_best "not vulnerable (OK)"
[[ $DEBUG -ge 1 ]] && out ", no CBC ciphers in TLS 1.3 only servers"
outln
fileout "$jsonID" "OK" "not vulnerable, TLS 1.3 only" "$cve" "$cwe"
return 0
fi
"$SSL_NATIVE" && using_sockets=false
# The openssl binary distributed has almost everything we need (PSK, KRB5 ciphers and feff, ffe0 are typically missing).
# Measurements show that there's little impact whether we use sockets or TLS here, so the default is sockets here
if "$using_sockets"; then
tls_sockets "03" "${cbc_ciphers_hex1}, 00,ff"
sclient_success=$?
[[ "$sclient_success" -eq 2 ]] && sclient_success=0
if [[ $sclient_success -ne 0 ]]; then
tls_sockets "03" "${cbc_ciphers_hex2}, 00,ff"
sclient_success=$?
[[ $sclient_success -eq 2 ]] && sclient_success=0
fi
else
nr_cbc_ciphers=$(count_ciphers $cbc_ciphers)
nr_supported_ciphers=$(count_ciphers $(actually_supported_osslciphers $cbc_ciphers))
$OPENSSL s_client $(s_client_options "$STARTTLS $BUGS -no_ssl2 -cipher $cbc_ciphers -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE
sclient_success=$?
[[ "$DEBUG" -eq 2 ]] && grep -Eq "error|failure" $ERRFILE | grep -Eav "unable to get local|verify error"
fi
if [[ $sclient_success -eq 0 ]]; then
out "potentially "
pr_svrty_low "VULNERABLE"; out ", uses cipher block chaining (CBC) ciphers with TLS. Check patches"
fileout "$jsonID" "LOW" "potentially vulnerable, uses TLS CBC ciphers" "$cve" "$cwe" "$hint"
# the CBC padding which led to timing differences during MAC processing has been solved in openssl (https://www.openssl.org/news/secadv/20130205.txt)
# and other software. However we can't tell with reasonable effort from the outside. Thus we still issue a warning and label it experimental
else
pr_svrty_best "not vulnerable (OK)";
if "$using_sockets"; then
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
else
if [[ "$nr_supported_ciphers" -ge 133 ]]; then
# Likely only PSK/KRB5 ciphers are missing: display discrepancy but no warning
out ", $nr_supported_ciphers/$nr_cbc_ciphers local ciphers"
else
pr_warning ", $nr_supported_ciphers/$nr_cbc_ciphers local ciphers"
fi
fileout "$jsonID" "OK" "not vulnerable ($nr_supported_ciphers of $nr_cbc_ciphers local ciphers" "$cve" "$cwe"
fi
fi
outln
tmpfile_handle ${FUNCNAME[0]}.txt
[[ $sclient_success -ge 6 ]] && return 1
return 0
}
# https://tools.ietf.org/html/rfc7465 REQUIRES that TLS clients and servers NEVER negotiate the use of RC4 cipher suites!
# https://en.wikipedia.org/wiki/Transport_Layer_Security#RC4_attacks
# https://blog.cryptographyengineering.com/2013/03/attack-of-week-rc4-is-kind-of-broken-in.html
#
run_rc4() {
local -i rc4_offered=0
local -i nr_ciphers=0 nr_ossl_ciphers=0 nr_nonossl_ciphers=0 sclient_success=0
local n auth mac hexc sslv2_ciphers_hex="" sslv2_ciphers_ossl="" s
local -a normalized_hexcode hexcode ciph sslvers kx enc export2 sigalg ossl_supported
local -i i
local -a ciphers_found ciphers_found2 hexcode2 ciph2 rfc_ciph2
local -i -a index
local dhlen available="" ciphers_to_test supported_sslv2_ciphers proto
local has_dh_bits="$HAS_DH_BITS" rc4_detected=""
local using_sockets=true
local cve="CVE-2013-2566 CVE-2015-2808"
local cwe="CWE-310"
local hint=""
local jsonID="RC4"
"$SSL_NATIVE" && using_sockets=false
"$FAST" && using_sockets=false
[[ $TLS_NR_CIPHERS == 0 ]] && using_sockets=false
if [[ $VULN_COUNT -le $VULN_THRESHLD ]]; then
outln
pr_headlineln " Checking for vulnerable RC4 Ciphers "
outln
fi
pr_bold " RC4"; out " (${cve// /, }) "
if "$TLS13_ONLY"; then
pr_svrty_best "not vulnerable (OK)"
[[ $DEBUG -ge 1 ]] && out ", no RC4 support in TLS 1.3 only servers"
outln
fileout "$jsonID" "OK" "not vulnerable, TLS 1.3 only" "$cve" "$cwe"
return 0
fi
# Get a list of all the cipher suites to test. #FIXME: This is rather ineffective as RC4 ciphers won't change.
# We should instead build a fixed list here like @ other functions
if "$using_sockets" || [[ $OSSL_VER_MAJOR -lt 1 ]]; then
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
if [[ "${TLS_CIPHER_RFC_NAME[i]}" =~ RC4 ]] && ( "$using_sockets" || "${TLS_CIPHER_OSSL_SUPPORTED[i]}" ); then
hexc="$(tolower "${TLS_CIPHER_HEXCODE[i]}")"
ciph[nr_ciphers]="${TLS_CIPHER_OSSL_NAME[i]}"
rfc_ciph[nr_ciphers]="${TLS_CIPHER_RFC_NAME[i]}"
sslvers[nr_ciphers]="${TLS_CIPHER_SSLVERS[i]}"
kx[nr_ciphers]="${TLS_CIPHER_KX[i]}"
enc[nr_ciphers]="${TLS_CIPHER_ENC[i]}"
export2[nr_ciphers]="${TLS_CIPHER_EXPORT[i]}"
ciphers_found[nr_ciphers]=false
sigalg[nr_ciphers]=""
ossl_supported[nr_ciphers]="${TLS_CIPHER_OSSL_SUPPORTED[i]}"
if "$using_sockets" && "$WIDE" && ! "$HAS_DH_BITS" &&
( [[ ${kx[nr_ciphers]} == "Kx=ECDH" ]] || [[ ${kx[nr_ciphers]} == "Kx=DH" ]] || [[ ${kx[nr_ciphers]} == "Kx=EDH" ]] ); then
ossl_supported[nr_ciphers]=false
fi
if [[ ${#hexc} -eq 9 ]]; then
hexcode[nr_ciphers]="${hexc:2:2},${hexc:7:2}"
if [[ "${hexc:2:2}" == 00 ]]; then
normalized_hexcode[nr_ciphers]="x${hexc:7:2}"
else
normalized_hexcode[nr_ciphers]="x${hexc:2:2}${hexc:7:2}"
fi
else
hexcode[nr_ciphers]="${hexc:2:2},${hexc:7:2},${hexc:12:2}"
normalized_hexcode[nr_ciphers]="x${hexc:2:2}${hexc:7:2}${hexc:12:2}"
sslv2_ciphers_hex+=", ${hexcode[nr_ciphers]}"
sslv2_ciphers_ossl+=":${ciph[nr_ciphers]}"
fi
nr_ciphers+=1
fi
done
else
while read hexc n ciph[nr_ciphers] sslvers[nr_ciphers] kx[nr_ciphers] auth enc[nr_ciphers] mac export2[nr_ciphers]; do
if [[ "${ciph[nr_ciphers]}" =~ RC4 ]]; then
ciphers_found[nr_ciphers]=false
if [[ ${#hexc} -eq 9 ]]; then
if [[ "${hexc:2:2}" == 00 ]]; then
normalized_hexcode[nr_ciphers]="$(tolower "x${hexc:7:2}")"
else
normalized_hexcode[nr_ciphers]="$(tolower "x${hexc:2:2}${hexc:7:2}")"
fi
else
normalized_hexcode[nr_ciphers]="$(tolower "x${hexc:2:2}${hexc:7:2}${hexc:12:2}")"
sslv2_ciphers_ossl+=":${ciph[nr_ciphers]}"
fi
sigalg[nr_ciphers]=""
ossl_supported[nr_ciphers]=true
nr_ciphers+=1
fi
done < <($OPENSSL ciphers $OSSL_CIPHERS_S -V 'ALL:COMPLEMENTOFALL:@STRENGTH' 2>>$ERRFILE)
fi
if "$using_sockets" && [[ -n "$sslv2_ciphers_hex" ]] && [[ $(has_server_protocol ssl2) -ne 1 ]]; then
sslv2_sockets "${sslv2_ciphers_hex:2}" "true"
if [[ $? -eq 3 ]] && [[ "$V2_HELLO_CIPHERSPEC_LENGTH" -ne 0 ]]; then
supported_sslv2_ciphers="$(grep "Supported cipher: " "$TEMPDIR/$NODEIP.parse_sslv2_serverhello.txt")"
"$WIDE" && "$SHOW_SIGALGO" && s="$(read_sigalg_from_file "$HOSTCERT")"
for (( i=0 ; i<nr_ciphers; i++ )); do
if [[ "${sslvers[i]}" == SSLv2 ]] && [[ "$supported_sslv2_ciphers" =~ ${normalized_hexcode[i]} ]]; then
ciphers_found[i]=true
"$WIDE" && "$SHOW_SIGALGO" && sigalg[i]="$s"
rc4_offered=1
fi
done
fi
elif "$HAS_SSL2" && [[ -n "$sslv2_ciphers_ossl" ]] && [[ $(has_server_protocol ssl2) -ne 1 ]]; then
$OPENSSL s_client -cipher "${sslv2_ciphers_ossl:1}" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY -ssl2 >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? "$TMPFILE"
if [[ $? -eq 0 ]]; then
supported_sslv2_ciphers="$(grep -A 4 "Ciphers common between both SSL endpoints:" $TMPFILE)"
"$WIDE" && "$SHOW_SIGALGO" && s="$(read_sigalg_from_file "$TMPFILE")"
for (( i=0 ; i<nr_ciphers; i++ )); do
if [[ "${sslvers[i]}" == SSLv2 ]] && [[ "$supported_sslv2_ciphers" =~ ${ciph[i]} ]]; then
ciphers_found[i]=true
"$WIDE" && "$SHOW_SIGALGO" && sigalg[i]="$s"
rc4_offered=1
fi
done
fi
fi
for (( i=0; i < nr_ciphers; i++ )); do
if "${ossl_supported[i]}" && [[ "${sslvers[i]}" != SSLv2 ]]; then
ciphers_found2[nr_ossl_ciphers]=false
ciph2[nr_ossl_ciphers]="${ciph[i]}"
index[nr_ossl_ciphers]=$i
nr_ossl_ciphers+=1
fi
done
for proto in -no_ssl2 -tls1_1 -tls1 -ssl3; do
[[ "$proto" != -no_ssl2 ]] && [[ $(has_server_protocol "${proto:1}") -eq 1 ]] && continue
! "$HAS_SSL3" && [[ "$proto" == -ssl3 ]] && continue
while true; do
ciphers_to_test=""
for (( i=0; i < nr_ossl_ciphers; i++ )); do
! "${ciphers_found2[i]}" && ciphers_to_test+=":${ciph2[i]}"
done
[[ -z "$ciphers_to_test" ]] && break
$OPENSSL s_client $(s_client_options "$proto -cipher "${ciphers_to_test:1}" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI") >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? "$TMPFILE" || break
cipher=$(get_cipher $TMPFILE)
[[ -z "$cipher" ]] && break
for (( i=0; i < nr_ossl_ciphers; i++ )); do
[[ "$cipher" == "${ciph2[i]}" ]] && ciphers_found2[i]=true && break
done
[[ $i -eq $nr_ossl_ciphers ]] && break
rc4_offered=1
i=${index[i]}
ciphers_found[i]=true
if "$WIDE" && ( [[ ${kx[i]} == "Kx=ECDH" ]] || [[ ${kx[i]} == "Kx=DH" ]] || [[ ${kx[i]} == "Kx=EDH" ]] ); then
dhlen=$(read_dhbits_from_file "$TMPFILE" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$WIDE" && "$SHOW_SIGALGO" && grep -q "\-\-\-\-\-BEGIN CERTIFICATE\-\-\-\-\-" $TMPFILE && \
sigalg[i]="$(read_sigalg_from_file "$TMPFILE")"
# If you use RC4 with newer protocols, you are punished harder
if [[ "$proto" == -tls1_1 ]]; then
set_grade_cap "C" "RC4 ciphers offered on TLS 1.1"
fi
done
done
if "$using_sockets"; then
for (( i=0; i < nr_ciphers; i++ )); do
if ! "${ciphers_found[i]}" && [[ "${sslvers[i]}" != SSLv2 ]]; then
ciphers_found2[nr_nonossl_ciphers]=false
hexcode2[nr_nonossl_ciphers]="${hexcode[i]}"
rfc_ciph2[nr_nonossl_ciphers]="${rfc_ciph[i]}"
index[nr_nonossl_ciphers]=$i
nr_nonossl_ciphers+=1
fi
done
fi
for proto in 03 02 01 00; do
[[ $(has_server_protocol "$proto") -eq 1 ]] && continue
while true; do
ciphers_to_test=""
for (( i=0; i < nr_nonossl_ciphers; i++ )); do
! "${ciphers_found2[i]}" && ciphers_to_test+=", ${hexcode2[i]}"
done
[[ -z "$ciphers_to_test" ]] && break
if "$WIDE" && "$SHOW_SIGALGO"; then
tls_sockets "$proto" "${ciphers_to_test:2}, 00,ff" "all"
else
tls_sockets "$proto" "${ciphers_to_test:2}, 00,ff" "ephemeralkey"
fi
sclient_success=$?
[[ $sclient_success -ne 0 ]] && [[ $sclient_success -ne 2 ]] && break
cipher=$(get_cipher "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
for (( i=0; i < nr_nonossl_ciphers; i++ )); do
[[ "$cipher" == "${rfc_ciph2[i]}" ]] && ciphers_found2[i]=true && break
done
[[ $i -eq $nr_nonossl_ciphers ]] && break
rc4_offered=1
i=${index[i]}
ciphers_found[i]=true
if "$WIDE" && ( [[ ${kx[i]} == "Kx=ECDH" ]] || [[ ${kx[i]} == "Kx=DH" ]] || [[ ${kx[i]} == "Kx=EDH" ]] ); then
dhlen=$(read_dhbits_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$WIDE" && "$SHOW_SIGALGO" && [[ -r "$HOSTCERT" ]] && \
sigalg[i]="$(read_sigalg_from_file "$HOSTCERT")"
done
done
if [[ $rc4_offered -eq 1 ]]; then
"$WIDE" || pr_svrty_high "VULNERABLE (NOT ok): "
if "$WIDE"; then
outln "\n"
neat_header
fi
for (( i=0 ; i<nr_ciphers; i++ )); do
if ! "${ciphers_found[i]}" && ! "$SHOW_EACH_C"; then
continue # no successful connect AND not verbose displaying each cipher
fi
if "$WIDE"; then
neat_list "${normalized_hexcode[i]}" "${ciph[i]}" "${kx[i]}" "${enc[i]}" "${export2[i]}" "${ciphers_found[i]}"
if "$SHOW_EACH_C"; then
if "${ciphers_found[i]}"; then
pr_svrty_high "available"
else
pr_deemphasize "not a/v"
fi
fi
outln "${sigalg[i]}"
fi
if "${ciphers_found[i]}"; then
if ( [[ "$DISPLAY_CIPHERNAMES" =~ openssl ]] && [[ "${ciph[i]}" != "-" ]] ) || [[ "${rfc_ciph[i]}" == "-" ]]; then
rc4_detected+="${ciph[i]} "
else
rc4_detected+="${rfc_ciph[i]} "
fi
fi
done
! "$WIDE" && pr_svrty_high "$(out_row_aligned_max_width "$rc4_detected" " " $TERM_WIDTH)"
outln
"$WIDE" && out " " && prln_svrty_high "VULNERABLE (NOT ok)"
fileout "$jsonID" "HIGH" "VULNERABLE, Detected ciphers: $rc4_detected" "$cve" "$cwe" "$hint"
set_grade_cap "B" "RC4 ciphers offered"
elif [[ $nr_ciphers -eq 0 ]]; then
prln_local_problem "No RC4 Ciphers configured in $OPENSSL"
fileout "$jsonID" "WARN" "RC4 ciphers not supported by local OpenSSL ($OPENSSL)"
else
prln_svrty_good "no RC4 ciphers detected (OK)"
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
fi
"$using_sockets" && HAS_DH_BITS="$has_dh_bits"
tmpfile_handle ${FUNCNAME[0]}.txt
[[ $sclient_success -ge 6 ]] && return 1
return 0
}
run_youknowwho() {
local cve="CVE-2013-2566"
local cwe="CWE-310"
# NOT FIXME as there's no code: https://web.archive.org/web/20191008002003/http://www.isg.rhul.ac.uk/tls/index.html
# Paper and presentation: https://www.usenix.org/conference/usenixsecurity13/technical-sessions/paper/alFardan
# https://blog.cryptographyengineering.com/2013/03/12/attack-of-week-rc4-is-kind-of-broken-in/
return 0
# in a nutshell: don't use RC4, really not!
}
run_tls_truncation() {
# https://www.usenix.org/conference/woot13/workshop-program/presentation/smyth
# https://secure-resumption.com/tlsauth.pdf
#FIXME: difficult to test, is there any test available: pls let me know
:
}
run_starttls_injection() {
local uds=""
local openssl_bin=""
local -i socat_pid
local -i openssl_pid
local vuln=false
local cve=""
local cwe="CWE-74"
local hint=""
local jsonID="starttls_injection"
[[ -z "$STARTTLS" ]] && return 0
if [[ $VULN_COUNT -le $VULN_THRESHLD ]]; then
outln
pr_headlineln " Checking for STARTTLS injection "
outln
fi
pr_bold " STARTTLS injection" ; out " (experimental) "
# We'll do a soft fail here, also no warning, as I do not expect to have everybody have socat installed
if [[ -z "$SOCAT" ]]; then
fileout "$jsonID" "WARN" "Need socat for this" "$cve" "$cwe" "$hint"
outln "Need socat for this check"
return 1
fi
if [[ -z "$HAS_UDS2" ]] && [[ -z "$HAS_UDS" ]]; then
fileout "$jsonID" "WARN" "Need OpenSSL with Unix-domain socket s_client support for this check" "$cve" "$cwe" "$hint"
outln "Need an OpenSSL with Unix-domain socket s_client support for this check"
return 1
fi
case $SERVICE in
smtp) fd_socket 5 "EHLO google.com"
;;
pop3) fd_socket 5 "CAPA"
;;
imap) five_random=$(tr -dc '[:upper:]' < /dev/urandom | dd bs=5 count=1 2>/dev/null)
fd_socket 5 "$five_random NOOP"
;;
*) outln "STARTTLS injection test doesn't work for $SERVICE, yet"
fileout "$jsonID" "INFO" "STARTTLS injection test doesn't work for $SERVICE" "$cve" "$cwe" "$hint"
return 1
;;
esac
uds="$TEMPDIR/uds"
$SOCAT FD:5 UNIX-LISTEN:$uds &
socat_pid=$!
if "$HAS_UDS"; then
openssl_bin="$OPENSSL"
elif "$HAS_UDS2"; then
openssl_bin="$OPENSSL2"
fi
# normally the interesting fallback we grep later for is in fd2 but we'll catch also stdout here
$openssl_bin s_client -unix $uds >$TMPFILE 2>&1 &
openssl_pid=$!
sleep 1
[[ "$DEBUG" -ge 2 ]] && tail $TMPFILE
#FIXME: is the pattern sufficient for SMTP / POP / IMAP?
case $SERVICE in
# Mind all ' ' here!
smtp) grep -Eqa '^250-|^503 ' $TMPFILE && vuln=true ;;
pop3) grep -Eqa '^USER|^PIPELINING|^\+OK ' $TMPFILE && vuln=true ;;
imap) grep -Eqa ' OK NOOP ' $TMPFILE && vuln=true ;;
esac
if "$vuln"; then
out "likely "
prln_svrty_high "VULNERABLE (NOT ok)"
fileout "$jsonID" "HIGH" "VULNERABLE" "$cve" "$cwe" "$hint"
else
prln_svrty_good "not vulnerable (OK)"
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
fi
kill $socat_pid 2>/dev/null
kill $openssl_pid 2>/dev/null
close_socket 5
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
# Test for various server implementation errors that aren't tested for elsewhere.
# Inspired by RFC 8701.
run_grease() {
local -i success
local bug_found=false
local normal_hello_ok=false
local cipher_list proto selected_cipher selected_cipher_hex="" extn rnd_bytes
local alpn_proto alpn alpn_list_len_hex extn_len_hex
local selected_alpn_protocol grease_selected_alpn_protocol
local ciph list temp curve_found
local -i i j rnd alpn_list_len extn_len debug_level=""
local -i ret=0
# Note: The following values were taken from RFC 8701.
# These arrays may need to be updated if the values change in the final version of this document.
local -a -r grease_cipher_suites=( "0a,0a" "1a,1a" "2a,2a" "3a,3a" "4a,4a" "5a,5a" "6a,6a" "7a,7a" "8a,8a" "9a,9a" "aa,aa" "ba,ba" "ca,ca" "da,da" "ea,ea" "fa,fa" )
local -a -r grease_supported_groups=( "0a,0a" "1a,1a" "2a,2a" "3a,3a" "4a,4a" "5a,5a" "6a,6a" "7a,7a" "8a,8a" "9a,9a" "aa,aa" "ba,ba" "ca,ca" "da,da" "ea,ea" "fa,fa" )
local -a -r grease_extn_values=( "0a,0a" "1a,1a" "2a,2a" "3a,3a" "4a,4a" "5a,5a" "6a,6a" "7a,7a" "8a,8a" "9a,9a" "aa,aa" "ba,ba" "ca,ca" "da,da" "ea,ea" "fa,fa" )
local -r ecdhe_ciphers="cc,14, cc,13, c0,30, c0,2c, c0,28, c0,24, c0,14, c0,0a, c0,9b, cc,a9, cc,a8, c0,af, c0,ad, c0,77, c0,73, c0,19, cc,ac, c0,38, c0,36, c0,49, c0,4d, c0,5d, c0,61, c0,71, c0,87, c0,8b, c0,2f, c0,2b, c0,27, c0,23, c0,13, c0,09, c0,ae, c0,ac, c0,76, c0,72, c0,18, c0,37, c0,35, c0,9a, c0,48, c0,4c, c0,5c, c0,60, c0,70, c0,86, c0,8a, c0,11, c0,07, c0,16, c0,33, c0,12, c0,08, c0,17, c0,34, c0,10, c0,06, c0,15, c0,3b, c0,3a, c0,39"
local jsonID="GREASE"
outln; pr_headline " Testing for server implementation bugs "; outln "\n"
# Many of the following checks work by modifying the "basic" call to
# tls_sockets() and assuming the tested-for bug is present if the
# connection fails. However, this only works if the connection succeeds
# with the "basic" call. So, keep trying different "basic" calls until
# one is found that succeeds.
for (( i=0; i < 5; i++ )); do
case $i in
0) proto="03" ; cipher_list="$TLS12_CIPHER" ;;
2) proto="02" ; cipher_list="$TLS_CIPHER" ;;
3) proto="01" ; cipher_list="$TLS_CIPHER" ;;
4) proto="00" ; cipher_list="$TLS_CIPHER" ;;
esac
tls_sockets "$proto" "$cipher_list"
success=$?
if [[ $success -eq 0 ]] || [[ $success -eq 2 ]]; then
break
fi
done
if [[ $success -eq 0 ]] || [[ $success -eq 2 ]]; then
selected_cipher=$(get_cipher "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
if [[ $TLS_NR_CIPHERS -ne 0 ]]; then
for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
[[ "$selected_cipher" == "${TLS_CIPHER_RFC_NAME[i]}" ]] && selected_cipher_hex="${TLS_CIPHER_HEXCODE[i]}" && break
done
elif "$HAS_SSL2"; then
selected_cipher_hex="$($OPENSSL ciphers -V -tls1 'ALL:COMPLEMENTOFALL' | awk '/'" $selected_cipher "'/ { print $1 }')"
elif "$HAS_CIPHERSUITES"; then
selected_cipher_hex="$($OPENSSL ciphers -V -ciphersuites "$TLS13_OSSL_CIPHERS" 'ALL:COMPLEMENTOFALL'| awk '/'" $selected_cipher "'/ { print $1 }')"
else
selected_cipher_hex="$($OPENSSL ciphers -V 'ALL:COMPLEMENTOFALL'| awk '/'" $selected_cipher "'/ { print $1 }')"
fi
if [[ -n "$selected_cipher_hex" ]]; then
normal_hello_ok=true
selected_cipher_hex="${selected_cipher_hex:2:2},${selected_cipher_hex:7:2}"
fi
else
proto="03"
fi
# Test for yaSSL bug - server only looks at second byte of each cipher
# suite listed in ClientHello (see issue #793). First check to see if
# server ignores the ciphers in the ClientHello entirely, then check to
# see if server only looks at second byte of each offered cipher.
# Send a list of non-existent ciphers where the second byte does not match
# any existing cipher.
# Need to ensure that $TEMPDIR/$NODEIP.parse_tls_serverhello.txt contains the results of the
# most recent calls to tls_sockets even if tls_sockets is not successful. Setting $DEBUG to
# a non-zero value ensures this. Setting it to 1 prevents any extra information from being
# displayed.
debug_level="$DEBUG"
[[ $DEBUG -eq 0 ]] && DEBUG=1
debugme echo -e "\nSending ClientHello with non-existent ciphers."
tls_sockets "$proto" "de,d0, de,d1, d3,d2, de,d3, 00,ff"
success=$?
if [[ $success -eq 0 ]] || [[ $success -eq 2 ]]; then
prln_svrty_medium " Server claims to support non-existent cipher suite."
fileout "$jsonID" "MEDIUM" "Server claims to support non-existent cipher suite."
bug_found=true
elif grep -q "The ServerHello specifies a cipher suite that wasn't included in the ClientHello" "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" ; then
prln_svrty_medium " Server responded with a ServerHello rather than an alert even though it doesn't support any of the client-offered cipher suites."
fileout "$jsonID" "MEDIUM" "Server responded with a ServerHello rather than an alert even though it doesn't support any of the client-offered cipher suites."
bug_found=true
else
# Send a list of non-existent ciphers such that for each cipher that
# is defined, there is one in the list that matches in the second byte
# (but make sure list contains at more 127 ciphers).
debugme echo -e "\nSending ClientHello with non-existent ciphers, but that match existing ciphers in second byte."
tls_sockets "$proto" "de,01, de,02, de,03, de,04, de,05, de,06, de,07, de,08, de,09, de,0a, de,0b, de,0c, de,0d, de,0e, de,0f, de,10, de,11, de,12, de,13, de,14, de,15, de,16, de,17, de,18, de,19, de,1a, de,1b, de,23, de,24, de,25, de,26, de,27, de,28, de,29, de,2a, de,2b, de,2c, de,2d, de,2e, de,2f, de,30, de,31, de,32, de,33, de,34, de,35, de,36, de,37, de,38, de,39, de,3a, de,3b, de,3c, de,3d, de,3e, de,3f, de,40, de,41, de,42, de,43, de,44, de,45, de,46, de,60, de,61, de,62, de,63, de,64, de,65, de,66, de,67, de,68, de,69, de,6a, de,6b, de,6c, de,6d, de,72, de,73, de,74, de,75, de,76, de,77, de,78, de,79, de,84, de,85, de,86, de,87, de,88, de,89, de,96, de,97, de,98, de,99, de,9a, de,9b, de,9c, de,9d, de,9e, de,9f, de,a0, de,a1, de,a2, de,a3, de,a4, de,a5, de,a6, de,a7, de,ba, de,bb, de,bc, de,bd, de,be, de,bf, de,c0, de,c1, de,c2, de,c3, de,c4, de,c5, 00,ff"
success=$?
if [[ $success -eq 0 ]] || [[ $success -eq 2 ]]; then
prln_svrty_medium " Server claims to support non-existent cipher suite."
fileout "$jsonID" "MEDIUM" "Server claims to support non-existent cipher suite."
bug_found=true
elif grep -q " The ServerHello specifies a cipher suite that wasn't included in the ClientHello" "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" ; then
prln_svrty_medium " Server only compares against second byte in each cipher suite in ClientHello."
fileout "$jsonID" "MEDIUM" "Server only compares against second byte in each cipher suite in ClientHello."
bug_found=true
fi
fi
DEBUG="$debug_level"
# Check that server ignores unrecognized extensions
# see RFC 8701
if "$normal_hello_ok" && [[ "$proto" != "00" ]]; then
# Try multiple different randomly-generated GREASE extensions,
# but make final test use zero-length extension value, just to
# be sure that works before testing server with a zero-length
# extension as the final extension.
for (( i=1; i <= 5; i++ )); do
# Create a random extension using one of the GREASE values.
rnd=$RANDOM%${#grease_extn_values[@]}
extn="${grease_extn_values[rnd]}"
if [[ $i -eq 5 ]]; then
extn_len=0
else
# Not sure what a good upper bound is here, but a key_share
# extension with an ffdhe8192 would be over 1024 bytes.
extn_len=$RANDOM%1024
fi
extn_len_hex=$(printf "%04x" $extn_len)
extn+=",${extn_len_hex:0:2},${extn_len_hex:2:2}"
for (( j=0; j <= extn_len-2; j+=2 )); do
rnd_bytes="$(printf "%04x" $RANDOM)"
extn+=",${rnd_bytes:0:2},${rnd_bytes:2:2}"
done
if [[ $j -lt $extn_len ]]; then
rnd_bytes="$(printf "%04x" $RANDOM)"
extn+=",${rnd_bytes:0:2}"
fi
if [[ $DEBUG -ge 2 ]]; then
echo -en "\nSending ClientHello with unrecognized extension"
[[ $DEBUG -ge 3 ]] && echo -n ": $extn"
echo ""
fi
tls_sockets "$proto" "$cipher_list" "" "$extn"
success=$?
if [[ $success -ne 0 ]] && [[ $success -ne 2 ]]; then
break
fi
done
if [[ $success -ne 0 ]] && [[ $success -ne 2 ]]; then
prln_svrty_medium " Server fails if ClientHello contains an unrecognized extension."
outln " extension used in failed test: $extn"
fileout "$jsonID" "MEDIUM" "Server fails if ClientHello contains an unrecognized extension: $extn"
bug_found=true
else
# Check for inability to handle empty last extension (see PR #792 and
# https://www.ietf.org/mail-archive/web/tls/current/msg19720.html).
# (Since this test also uses an unrecognized extension, only run this
# test if the previous test passed, and use the final extension value
# from that test to ensure that the only difference is the location
# of the extension.)
# The "extra extensions" parameter needs to include the padding and
# heartbeat extensions, since otherwise prepare_tls_clienthello()
# will add these extensions to the end of the ClientHello.
debugme echo -e "\nSending ClientHello with empty last extension."
tls_sockets "$proto" "$cipher_list" "" "
00,0f, 00,01, 01,
00,15, 00,56,
00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,
00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,
00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,
00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,
$extn"
success=$?
if [[ $success -ne 0 ]] && [[ $success -ne 2 ]]; then
prln_svrty_medium " Server fails if last extension in ClientHello is empty."
fileout "$jsonID" "MEDIUM" "Server fails if last extension in ClientHello is empty."
bug_found=true
fi
fi
fi
# Check for SERVER_SIZE_LIMIT_BUG.
# Send a ClientHello with 129 cipher suites (including 0x00,0xff) to see
# if adding a 129th cipher to the list causes a failure.
#TODO: we need to clarify whether the mit is hit at 128 or 129 ciphers.
if "$normal_hello_ok" && [[ "$proto" == 03 ]]; then
debugme echo -e "\nSending ClientHello with 129 cipher suites."
tls_sockets "$proto" "00,27, $cipher_list"
success=$?
if [[ $success -ne 0 ]] && [[ $success -ne 2 ]]; then
prln_svrty_medium " Server fails if ClientHello includes more than 128 cipher suites."
fileout "$jsonID" "MEDIUM" "Server fails if ClientHello includes more than 128 cipher suites."
SERVER_SIZE_LIMIT_BUG=true
bug_found=true
fi
fi
# Check for ClientHello size bug. According to RFC 7586 "at least one TLS
# implementation is known to hang the connection when [a] ClientHello
# record [with a length between 256 and 511 bytes] is received."
# If the length of the host name is more than 75 bytes (which would make
# $SNI more than 87 bytes), then the ClientHello would be more than 511
# bytes if the server_name extension were included. Removing the SNI
# extension, however, may not be an option, since the server may reject the
# connection attempt for that reason.
if "$normal_hello_ok" && [[ "$proto" != 00 ]] && [[ ${#SNI} -le 87 ]]; then
# Normally prepare_tls_clienthello() will add a padding extension with a length
# that will make the ClientHello be 512 bytes in length. Providing an "extra
# extensions" parameter with a short padding extension prevents that.
debugme echo -e "\nSending ClientHello with length between 256 and 511 bytes."
tls_sockets "$proto" "$cipher_list" "" "00,15,00,01,00"
success=$?
if [[ $success -ne 0 ]] && [[ $success -ne 2 ]]; then
prln_svrty_medium " Server fails if ClientHello is between 256 and 511 bytes in length."
fileout "$jsonID" "MEDIUM" "Server fails if ClientHello is between 256 and 511 bytes in length."
bug_found=true
fi
fi
# Check that server ignores unrecognized cipher suite values
# see RFC 8701
if "$normal_hello_ok"; then
list=""
for ciph in "${grease_cipher_suites[@]}"; do
list+=", $ciph"
done
debugme echo -e "\nSending ClientHello with unrecognized cipher suite values."
tls_sockets "$proto" "${list:2}, $selected_cipher_hex, 00,ff"
success=$?
if [[ $success -ne 0 ]] && [[ $success -ne 2 ]]; then
prln_svrty_medium " Server fails if ClientHello contains unrecognized cipher suite values."
fileout "$jsonID" "MEDIUM" "Server fails if ClientHello contains unrecognized cipher suite values."
bug_found=true
fi
fi
# Check that servers that support ECDHE cipher suites ignore
# unrecognized named group values.
# see RFC 8701
if [[ "$proto" != "00" ]]; then
# Send a ClientHello that lists all of the ECDHE cipher suites
tls_sockets "$proto" "$ecdhe_ciphers, 00,ff" "ephemeralkey"
success=$?
if [[ $success -eq 0 ]] || [[ $success -eq 2 ]]; then
# Send the same ClientHello as before but with an unrecognized
# named group value added. Make the unrecognized value the first
# one in the list replacing one of the values in the original list,
# but don't replace the value that was selected by the server.
rnd=$RANDOM%${#grease_supported_groups[@]}
temp=$(awk -F': ' '/^Server Temp Key/ { print $2 }' "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
curve_found="${temp%%,*}"
if [[ "$curve_found" == "ECDH" ]]; then
curve_found="${temp#*, }"
curve_found="${curve_found%%,*}"
fi
if [[ "$curve_found" == "B-571" ]]; then
extn="
00, 0a, # Type: Supported Elliptic Curves , see RFC 4492
00, 3e, 00, 3c, # lengths
${grease_supported_groups[rnd]}, 00, 0e, 00, 19, 00, 1c, 00, 1e, 00, 0b, 00, 0c, 00, 1b,
00, 18, 00, 09, 00, 0a, 00, 1a, 00, 16, 00, 17, 00, 1d, 00, 08,
00, 06, 00, 07, 00, 14, 00, 15, 00, 04, 00, 05, 00, 12, 00, 13,
00, 01, 00, 02, 00, 03, 00, 0f, 00, 10, 00, 11"
else
extn="
00, 0a, # Type: Supported Elliptic Curves , see RFC 4492
00, 3e, 00, 3c, # lengths
${grease_supported_groups[rnd]}, 00, 0d, 00, 19, 00, 1c, 00, 1e, 00, 0b, 00, 0c, 00, 1b,
00, 18, 00, 09, 00, 0a, 00, 1a, 00, 16, 00, 17, 00, 1d, 00, 08,
00, 06, 00, 07, 00, 14, 00, 15, 00, 04, 00, 05, 00, 12, 00, 13,
00, 01, 00, 02, 00, 03, 00, 0f, 00, 10, 00, 11"
fi
debugme echo -e "\nSending ClientHello with unrecognized named group value in supported_groups extension."
tls_sockets "$proto" "$ecdhe_ciphers, 00,ff" "" "$extn"
success=$?
if [[ $success -ne 0 ]] && [[ $success -ne 2 ]]; then
prln_svrty_medium " Server fails if ClientHello contains a supported_groups extension with an unrecognized named group value (${grease_supported_groups[rnd]})."
fileout "$jsonID" "MEDIUM" "Server fails if ClientHello contains a supported_groups extension with an unrecognized named group value (${grease_supported_groups[rnd]})."
bug_found=true
fi
fi
fi
# Check that servers that support the ALPN extension ignore
# unrecognized ALPN values.
# see RFC 8701
if "$normal_hello_ok" && [[ -z $STARTTLS ]] && [[ "$proto" != "00" ]]; then
for alpn_proto in $ALPN_PROTOs; do
alpn+=",$(printf "%02x" ${#alpn_proto}),$(string_to_asciihex "$alpn_proto")"
done
alpn_list_len=${#alpn}/3
alpn_list_len_hex=$(printf "%04x" $alpn_list_len)
extn_len=$alpn_list_len+2
extn_len_hex=$(printf "%04x" $extn_len)
tls_sockets "$proto" "$cipher_list" "all" "00,10,${extn_len_hex:0:2},${extn_len_hex:2:2},${alpn_list_len_hex:0:2},${alpn_list_len_hex:2:2}$alpn"
success=$?
if [[ $success -ne 0 ]] && [[ $success -ne 2 ]]; then
prln_svrty_medium " Server fails if ClientHello contains an application_layer_protocol_negotiation extension."
fileout "$jsonID" "MEDIUM" "Server fails if ClientHello contains an application_layer_protocol_negotiation extension."
bug_found=true
else
selected_alpn_protocol="$(grep "ALPN protocol:" "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" | sed 's/ALPN protocol: //')"
# If using a "normal" ALPN extension worked, then add an unrecognized
# ALPN value to the beginning of the extension and try again.
alpn_proto="ZZ" # "ZZ" = "{0x5A,0x5A}"
alpn=",$(printf "%02x" ${#alpn_proto}),$(string_to_asciihex "$alpn_proto")$alpn"
alpn_list_len=${#alpn}/3
alpn_list_len_hex=$(printf "%04x" $alpn_list_len)
extn_len=$alpn_list_len+2
extn_len_hex=$(printf "%04x" $extn_len)
debugme echo -e "\nSending ClientHello with unrecognized ALPN value in application_layer_protocol_negotiation extension."
tls_sockets "$proto" "$cipher_list" "all" "00,10,${extn_len_hex:0:2},${extn_len_hex:2:2},${alpn_list_len_hex:0:2},${alpn_list_len_hex:2:2}$alpn"
success=$?
if [[ $success -ne 0 ]] && [[ $success -ne 2 ]]; then
prln_svrty_medium " Server fails if ClientHello contains an application_layer_protocol_negotiation extension with an unrecognized ALPN value."
fileout "$jsonID" "MEDIUM" "Server fails if ClientHello contains an application_layer_protocol_negotiation extension with an unrecognized ALPN value."
bug_found=true
else
grease_selected_alpn_protocol="$(grep "ALPN protocol:" "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" | sed 's/ALPN protocol: //')"
if [[ -z "$grease_selected_alpn_protocol" ]] && [[ -n "$selected_alpn_protocol" ]]; then
prln_svrty_medium " Server did not ignore unrecognized ALPN value in the application_layer_protocol_negotiation extension."
fileout "$jsonID" "MEDIUM" "Server did not ignore unrecognized ALPN value in the application_layer_protocol_negotiation extension."
bug_found=true
elif [[ "$grease_selected_alpn_protocol" == $alpn_proto ]]; then
prln_svrty_medium " Server selected GREASE ALPN value ($alpn_proto) in the application_layer_protocol_negotiation extension."
fileout "$jsonID" "MEDIUM" "Server selected GREASE ALPN value ($alpn_proto) in the application_layer_protocol_negotiation extension."
bug_found=true
fi
fi
fi
fi
# TODO: For servers that support TLSv1.3, check that servers ignore
# an unrecognized named group value along with a corresponding
# unrecognized key share
# see https://www.ietf.org/mail-archive/web/tls/current/msg22322.html
# and https://www.ietf.org/mail-archive/web/tls/current/msg22319.html
# TODO: For servers that support TLSv1.3, check that servers ignore unrecognized
# values in the supported_versions extension.
# see https://www.ietf.org/mail-archive/web/tls/current/msg22319.html
# TODO: For servers that support TLSv1.3, check that servers don't require the
# psk_key_exchange_modes extension to be present in the ClientHello.
if ! "$bug_found"; then
outln " No bugs found."
fileout "$jsonID" "OK" "No bugs found."
#return 0
else
#return 1
:
fi
return $ret
#FIXME: No client side error cases where we want to return 1?
}
# If the server supports any non-PSK cipher suites that use RSA key transport,
# check if the server is vulnerable to Bleichenbacher's Oracle Threat (ROBOT) attacks.
# See "Return Of Bleichenbacher's Oracle Threat (ROBOT)" by Hanno Böck,
# Juraj Somorovsky, and Craig Young (https://robotattack.org).
#
run_robot() {
local tls_hexcode="03"
# A list of all non-PSK cipher suites that use RSA key transport
local cipherlist="00,9d, c0,a1, c0,9d, 00,3d, 00,35, 00,c0, 00,84, c0,3d, c0,51, c0,7b, ff,00, ff,01, ff,02, ff,03, c0,a0, c0,9c, 00,9c, 00,3c, 00,2f, 00,ba, 00,96, 00,41, 00,07, c0,3c, c0,50, c0,7a, 00,05, 00,04, 00,0a, fe,ff, ff,e0, 00,62, 00,09, 00,61, fe,fe, ff,e1, 00,64, 00,60, 00,08, 00,06, 00,03, 00,3b, 00,02, 00,01"
# A list of all non-PSK cipher suites that use RSA key transport and that use AES in either GCM or CBC mode.
local aes_gcm_cbc_cipherlist="00,9d, 00,9c, 00,3d, 00,35, 00,3c, 00,2f"
local padded_pms encrypted_pms cke_prefix client_key_exchange rnd_pad
local rnd_pms="aa112233445566778899112233445566778899112233445566778899112233445566778899112233445566778899"
local change_cipher_spec finished resp
local -a response
local -i i subret len iteration testnum pubkeybytes
local pubkeybits
local vulnerable=false send_ccs_finished=true
local -i start_time end_time robottimeout=$MAX_WAITSOCK
local cve="CVE-2017-17382 CVE-2017-17427 CVE-2017-17428 CVE-2017-13098 CVE-2017-1000385 CVE-2017-13099 CVE-2016-6883 CVE-2012-5081 CVE-2017-6168"
local cwe="CWE-203"
local jsonID="ROBOT"
[[ $VULN_COUNT -le $VULN_THRESHLD ]] && outln && pr_headlineln " Testing for Return of Bleichenbacher's Oracle Threat (ROBOT) vulnerability " && outln
pr_bold " ROBOT "
if ( [[ "$STARTTLS_PROTOCOL" =~ ldap ]] || [[ "$STARTTLS_PROTOCOL" =~ irc ]] ); then
prln_local_problem "STARTTLS/$STARTTLS_PROTOCOL and --ssl-native collide here"
return 1
fi
if [[ ! "$HAS_PKUTIL" ]]; then
prln_local_problem "Your $OPENSSL does not support the pkeyutl utility."
fileout "$jsonID" "WARN" "$OPENSSL does not support the pkeyutl utility." "$cve" "$cwe"
return 1
elif ! "$HAS_PKEY"; then
prln_local_problem "Your $OPENSSL does not support the pkey utility."
fileout "$jsonID" "WARN" "$OPENSSL does not support the pkey utility." "$cve" "$cwe"
return 1
fi
if [[ 0 -eq $(has_server_protocol tls1_2) ]]; then
tls_hexcode="03"
elif [[ 0 -eq $(has_server_protocol tls1_1) ]]; then
tls_hexcode="02"
elif [[ 0 -eq $(has_server_protocol tls1) ]]; then
tls_hexcode="01"
elif [[ 0 -eq $(has_server_protocol ssl3) ]]; then
tls_hexcode="00"
fi
# Some hosts are only vulnerable with GCM. First send a list of
# ciphers that use AES in GCM or CBC mode, with the GCM ciphers
# listed first, and then try all ciphers that use RSA key transport
# if there is no connection on the first try.
tls_sockets "$tls_hexcode" "$aes_gcm_cbc_cipherlist, 00,ff"
subret=$?
if [[ $subret -eq 0 ]] || [[ $subret -eq 2 ]]; then
cipherlist="$aes_gcm_cbc_cipherlist"
tls_hexcode="${DETECTED_TLS_VERSION:2:2}"
else
if [[ "$tls_hexcode" != "03" ]]; then
cipherlist="$(strip_inconsistent_ciphers "$tls_hexcode" ", $cipherlist")"
cipherlist="${cipherlist:2}"
fi
tls_sockets "$tls_hexcode" "$cipherlist, 00,ff"
subret=$?
if [[ $subret -eq 2 ]]; then
tls_hexcode="${DETECTED_TLS_VERSION:2:2}"
cipherlist="$(strip_inconsistent_ciphers "$tls_hexcode" ", $cipherlist")"
cipherlist="${cipherlist:2}"
elif [[ $subret -ne 0 ]]; then
prln_svrty_best "Server does not support any cipher suites that use RSA key transport"
fileout "$jsonID" "OK" "not vulnerable, no RSA key transport cipher" "$cve" "$cwe"
return 0
fi
fi
# Run the tests in two iterations. In iteration 0, send 5 different client
# key exchange (CKE) messages followed by change cipher spec (CCS) and
# Finished messages, and check whether the server provided the same
# response in each case. If the server didn't provide the same response
# for all five messages in iteration 0, then it is vulnerable. Otherwise
# try a second time (iteration 1) with the same CKE messages, but without
# sending the CCS or Finished messages.
# Iterations 0 and 1 are run with a short timeout waiting for the server
# to respond to the CKE message. If the server was found to be potentially
# vulnerable in iteration 0 or 1 and testssl.sh timed out waiting for a
# response in some cases, then retry the test using a longer timeout value.
for (( iteration=0; iteration < 3; iteration++ )); do
if [[ $iteration -eq 1 ]]; then
# If the server was found to be vulnerable in iteration 0, then
# there's no need to try the alternative message flow.
"$vulnerable" && continue
send_ccs_finished=false
elif [[ $iteration -eq 2 ]]; then
# The tests are being rerun, so reset the vulnerable flag.
vulnerable=false
fi
for (( testnum=0; testnum < 5; testnum++ )); do
response[testnum]="untested"
done
for (( testnum=0; testnum < 5; testnum++ )); do
tls_sockets "$tls_hexcode" "$cipherlist, 00,ff" "all" "" "" "false"
# Create the padded premaster secret to encrypt. The padding should be
# of the form "00 02 <random> 00 <TLS version> <premaster secret>."
# However, for each test except testnum=0 the padding will be
# made incorrect in some way, as specified below.
# Determine the length of the public key and create the <random> bytes.
# <random> should be a length that makes total length of $padded_pms
# the same as the length of the public key. <random> should contain no 00 bytes.
pubkeybits="$($OPENSSL x509 -noout -pubkey -in $HOSTCERT 2>>$ERRFILE | \
$OPENSSL pkey -pubin -text_pub 2>>$ERRFILE | awk -F'(' '/Public-Key/ { print $2 }')"
pubkeybits="${pubkeybits%%bit*}"
pubkeybytes=$pubkeybits/8
[[ $((pubkeybits%8)) -ne 0 ]] && pubkeybytes+=1
rnd_pad=""
for (( len=0; len < pubkeybytes-52; len+=2 )); do
rnd_pad+="abcd"
done
[[ $len -eq $pubkeybytes-52 ]] && rnd_pad+="ab"
case "$testnum" in
# correct padding
0) padded_pms="0002${rnd_pad}00${DETECTED_TLS_VERSION}${rnd_pms}" ;;
# wrong first two bytes
1) padded_pms="4117${rnd_pad}00${DETECTED_TLS_VERSION}${rnd_pms}" ;;
# 0x00 on a wrong position
2) padded_pms="0002${rnd_pad}11${rnd_pms}0011" ;;
# no 0x00 in the middle
3) padded_pms="0002${rnd_pad}111111${rnd_pms}" ;;
# wrong version number (according to Klima / Pokorny / Rosa paper)
4) padded_pms="0002${rnd_pad}000202${rnd_pms}" ;;
esac
# Encrypt the padded premaster secret using the server's public key.
encrypted_pms="$(hex2binary "$padded_pms" | \
$OPENSSL pkeyutl -encrypt -certin -inkey $HOSTCERT -pkeyopt rsa_padding_mode:none 2>/dev/null | \
hexdump -v -e '16/1 "%02x"')"
if [[ -z "$encrypted_pms" ]]; then
if [[ "$DETECTED_TLS_VERSION" == "0300" ]]; then
socksend ",x15, x03, x00, x00, x02, x02, x00" 0
else
socksend ",x15, x03, x01, x00, x02, x02, x00" 0
fi
close_socket 5
prln_fixme "Conversion of public key failed around line $((LINENO - 9))"
fileout "$jsonID" "WARN" "Conversion of public key failed around line $((LINENO - 10)) "
return 1
fi
# Create the client key exchange message.
len=${#encrypted_pms}/2
cke_prefix="16${DETECTED_TLS_VERSION}$(printf "%04x" $((len+6)))10$(printf "%06x" $((len+2)))$(printf "%04x" $len)"
encrypted_pms="$cke_prefix$encrypted_pms"
len=${#encrypted_pms}
client_key_exchange=""
for (( i=0; i<len; i+=2 )); do
client_key_exchange+=", x${encrypted_pms:i:2}"
done
# The contents of change cipher spec are fixed.
change_cipher_spec=", x14, x${DETECTED_TLS_VERSION:0:2}, x${DETECTED_TLS_VERSION:2:2}, x00, x01, x01"
# Send an arbitrary Finished message.
finished=", x16, x${DETECTED_TLS_VERSION:0:2}, x${DETECTED_TLS_VERSION:2:2}
, x00, x40, x6e, x49, x65, x68, x00, x46, x79, xfd, x5a, x57, xdc
, x3e, xef, xb2, xd2, xac, xe0, x8c, x54, x2d, x5f, x00, x87, xdb
, xb6, xe3, x77, x2c, x9d, x88, x27, x38, x98, x7d, xcd, x7e, xac
, xdd, x5d, x72, xbe, x24, x0d, x20, x36, x14, x0e, x94, x51, xde
, xa0, xb6, xc7, x56, x28, xd8, xa1, xcb, x24, xb9, x03, xd0, x7c, x50"
if "$send_ccs_finished"; then
debugme echo -en "\nsending client key exchange, change cipher spec, finished... "
socksend "$client_key_exchange$change_cipher_spec$finished" $USLEEP_SND
else
debugme echo -en "\nsending client key exchange... "
socksend "$client_key_exchange" $USLEEP_SND
fi
debugme echo "reading server error response..."
start_time=$(LC_ALL=C date "+%s")
sockread_serverhello 32768 $robottimeout
subret=$?
if [[ $subret -eq 0 ]]; then
end_time=$(LC_ALL=C date "+%s")
resp=$(hexdump -v -e '16/1 "%02x"' "$SOCK_REPLY_FILE")
response[testnum]="${resp%%[!0-9A-F]*}"
# The first time a response is received to a client key
# exchange message, measure the amount of time it took to
# receive a response and set the timeout value for future
# tests to 2 seconds longer than it took to receive a response.
[[ $iteration -ne 2 ]] && [[ $robottimeout -eq $MAX_WAITSOCK ]] && \
[[ $((end_time-start_time)) -lt $((MAX_WAITSOCK-2)) ]] && \
robottimeout=$((end_time-start_time+2))
else
response[testnum]="Timeout waiting for alert"
fi
debugme echo -e "\nresponse[$testnum] = ${response[testnum]}"
[[ $DEBUG -ge 3 ]] && [[ $subret -eq 0 ]] && parse_tls_serverhello "${response[testnum]}"
close_socket 5
# Don't continue testing if it has already been determined that
# tests need to be rerun with a longer timeout.
if [[ $iteration -ne 2 ]]; then
for (( i=1; i <= testnum; i++ )); do
if [[ "${response[i]}" != "${response[$((i-1))]}" ]] && \
( [[ "${response[i]}" == "Timeout waiting for alert" ]] || \
[[ "${response[$((i-1))]}" == "Timeout waiting for alert" ]] ); then
vulnerable=true
break
fi
done
"$vulnerable" && break
fi
# Don't continue testing if it has already been determined that the server is
# strongly vulnerable.
if [[ $testnum -eq 2 ]]; then
[[ "${response[1]}" != "${response[2]}" ]] && break
elif [[ $testnum -eq 3 ]]; then
[[ "${response[2]}" != "${response[3]}" ]] && break
[[ "${response[0]}" != "${response[1]}" ]] && break
fi
done
# If the server provided the same error message for all tests, then this
# is an indication that the server is not vulnerable.
if [[ "${response[0]}" != "${response[1]}" ]] || [[ "${response[1]}" != "${response[2]}" ]] || \
[[ "${response[2]}" != "${response[3]}" ]] || [[ "${response[3]}" != "${response[4]}" ]]; then
vulnerable=true
# If the test was run with a short timeout and was found to be
# potentially vulnerable due to some tests timing out, then
# verify the results by rerunning with a longer timeout.
if [[ $robottimeout -eq $MAX_WAITSOCK ]]; then
break
elif [[ "${response[0]}" == "Timeout waiting for alert" ]] || \
[[ "${response[1]}" == "Timeout waiting for alert" ]] || \
[[ "${response[2]}" == "Timeout waiting for alert" ]] || \
[[ "${response[3]}" == "Timeout waiting for alert" ]] || \
[[ "${response[4]}" == "Timeout waiting for alert" ]]; then
robottimeout=10
else
break
fi
fi
! "$vulnerable" && [[ $iteration -eq 1 ]] && break
done
if "$vulnerable"; then
if [[ "${response[1]}" == "${response[2]}" ]] && [[ "${response[2]}" == "${response[3]}" ]]; then
pr_svrty_medium "VULNERABLE (NOT ok)"; outln " - weakly vulnerable as the attack would take too long"
fileout "$jsonID" "MEDIUM" "VULNERABLE, but the attack would take too long" "$cve" "$cwe"
else
prln_svrty_critical "VULNERABLE (NOT ok)"
fileout "$jsonID" "CRITICAL" "VULNERABLE" "$cve" "$cwe"
fi
set_grade_cap "F" "Vulnerable to ROBOT"
else
prln_svrty_best "not vulnerable (OK)"
fileout "$jsonID" "OK" "not vulnerable" "$cve" "$cwe"
fi
return 0
}
old_fart() {
out "Get precompiled bins or compile "
pr_url "https://github.com/PeterMosmans/openssl"
outln "."
fileout_insert_warning "old_fart" "WARN" "Your $OPENSSL $OSSL_VER version is an old fart... . It doesn\'t make much sense to proceed. Get precompiled bins or compile https://github.com/PeterMosmans/openssl ."
fatal "Your $OPENSSL $OSSL_VER version is an old fart... . It doesn't make much sense to proceed." $ERR_OSSLBIN
}
# try very hard to determine the install path to get ahold of the mapping file and the CA bundles
# TESTSSL_INSTALL_DIR can be supplied via environment so that the cipher mapping and CA bundles can be found
# www.carbonwind.net/TLS_Cipher_Suites_Project/tls_ssl_cipher_suites_simple_table_all.htm
get_install_dir() {
[[ -z "$TESTSSL_INSTALL_DIR" ]] && TESTSSL_INSTALL_DIR="$(dirname "${BASH_SOURCE[0]}")"
if [[ -r "$RUN_DIR/etc/cipher-mapping.txt" ]]; then
CIPHERS_BY_STRENGTH_FILE="$RUN_DIR/etc/cipher-mapping.txt"
[[ -z "$TESTSSL_INSTALL_DIR" ]] && TESTSSL_INSTALL_DIR="$RUN_DIR" # probably TESTSSL_INSTALL_DIR
fi
[[ -r "$TESTSSL_INSTALL_DIR/etc/cipher-mapping.txt" ]] && CIPHERS_BY_STRENGTH_FILE="$TESTSSL_INSTALL_DIR/etc/cipher-mapping.txt"
if [[ ! -r "$CIPHERS_BY_STRENGTH_FILE" ]]; then
[[ -r "$RUN_DIR/cipher-mapping.txt" ]] && CIPHERS_BY_STRENGTH_FILE="$RUN_DIR/cipher-mapping.txt"
[[ -r "$TESTSSL_INSTALL_DIR/cipher-mapping.txt" ]] && CIPHERS_BY_STRENGTH_FILE="$TESTSSL_INSTALL_DIR/cipher-mapping.txt"
fi
# we haven't found the cipher file yet...
if [[ ! -r "$CIPHERS_BY_STRENGTH_FILE" ]] && type -p readlink &>/dev/null ; then
readlink -f ls &>/dev/null && \
TESTSSL_INSTALL_DIR="$(readlink -f "$(basename "${BASH_SOURCE[0]}")")" || \
TESTSSL_INSTALL_DIR="$(readlink "$(basename "${BASH_SOURCE[0]}")")"
# not sure whether Darwin has -f
TESTSSL_INSTALL_DIR="$(dirname "$TESTSSL_INSTALL_DIR" 2>/dev/null)"
[[ -r "$TESTSSL_INSTALL_DIR/cipher-mapping.txt" ]] && CIPHERS_BY_STRENGTH_FILE="$TESTSSL_INSTALL_DIR/cipher-mapping.txt"
[[ -r "$TESTSSL_INSTALL_DIR/etc/cipher-mapping.txt" ]] && CIPHERS_BY_STRENGTH_FILE="$TESTSSL_INSTALL_DIR/etc/cipher-mapping.txt"
fi
# still no cipher mapping file:
if [[ ! -r "$CIPHERS_BY_STRENGTH_FILE" ]] && type -p realpath &>/dev/null ; then
TESTSSL_INSTALL_DIR="$(dirname "$(realpath "${BASH_SOURCE[0]}")")"
CIPHERS_BY_STRENGTH_FILE="$TESTSSL_INSTALL_DIR/etc/cipher-mapping.txt"
[[ -r "$TESTSSL_INSTALL_DIR/cipher-mapping.txt" ]] && CIPHERS_BY_STRENGTH_FILE="$TESTSSL_INSTALL_DIR/cipher-mapping.txt"
fi
# still no cipher mapping file (and realpath is not present):
if [[ ! -r "$CIPHERS_BY_STRENGTH_FILE" ]] && type -p readlink &>/dev/null ; then
readlink -f ls &>/dev/null && \
TESTSSL_INSTALL_DIR="$(dirname "$(readlink -f "${BASH_SOURCE[0]}")")" || \
TESTSSL_INSTALL_DIR="$(dirname "$(readlink "${BASH_SOURCE[0]}")")"
# not sure whether Darwin has -f
CIPHERS_BY_STRENGTH_FILE="$TESTSSL_INSTALL_DIR/etc/cipher-mapping.txt"
[[ -r "$TESTSSL_INSTALL_DIR/cipher-mapping.txt" ]] && CIPHERS_BY_STRENGTH_FILE="$TESTSSL_INSTALL_DIR/cipher-mapping.txt"
fi
if [[ ! -r "$CIPHERS_BY_STRENGTH_FILE" ]]; then
DISPLAY_CIPHERNAMES="openssl-only"
debugme echo "$CIPHERS_BY_STRENGTH_FILE"
prln_warning "\nATTENTION: No cipher mapping file found!"
outln "Please note from 2.9 on $PROG_NAME needs files in \"\$TESTSSL_INSTALL_DIR/etc/\" to function correctly."
outln
ignore_no_or_lame "Type \"yes\" to ignore this warning and proceed at your own risk" "yes"
[[ $? -ne 0 ]] && exit $ERR_RESOURCE
fi
TLS_DATA_FILE="$TESTSSL_INSTALL_DIR/etc/tls_data.txt"
if [[ ! -r "$TLS_DATA_FILE" ]]; then
prln_warning "\nATTENTION: No TLS data file found -- needed for socket-based handshakes"
outln "Please note from 2.9 on $PROG_NAME needs files in \"\$TESTSSL_INSTALL_DIR/etc/\" to function correctly."
outln
ignore_no_or_lame "Type \"yes\" to ignore this warning and proceed at your own risk" "yes"
[[ $? -ne 0 ]] && exit $ERR_RESOURCE
else
: # see #705, in a nutshell: not portable to initialize a global array inside a function. Thus it'll be done in main part below
fi
}
test_openssl_suffix() {
local naming_ext="$(uname).$(uname -m)"
local uname_arch="$(uname -m)"
local myarch_suffix=""
[[ $uname_arch =~ 64 ]] && myarch_suffix=64 || myarch_suffix=32
if [[ -f "$1/openssl" ]] && [[ -x "$1/openssl" ]]; then
OPENSSL="$1/openssl"
return 0
elif [[ -f "$1/openssl.$naming_ext" ]] && [[ -x "$1/openssl.$naming_ext" ]]; then
OPENSSL="$1/openssl.$naming_ext"
return 0
elif [[ -f "$1/openssl.$uname_arch" ]] && [[ -x "$1/openssl.$uname_arch" ]]; then
OPENSSL="$1/openssl.$uname_arch"
return 0
elif [[ -f "$1/openssl$myarch_suffix" ]] && [[ -x "$1/openssl$myarch_suffix" ]]; then
OPENSSL="$1/openssl$myarch_suffix"
return 0
fi
return 1
}
find_openssl_binary() {
local s_client_has=$TEMPDIR/s_client_has.txt
local s_client_has2=$TEMPDIR/s_client_has2.txt
local s_client_starttls_has=$TEMPDIR/s_client_starttls_has.txt
local s_client_starttls_has2=$TEMPDIR/s_client_starttls_has2
local openssl_location cwd=""
local ossl_wo_dev_info
local curve
local -a curves_ossl=("sect163k1" "sect163r1" "sect163r2" "sect193r1" "sect193r2" "sect233k1" "sect233r1" "sect239k1" "sect283k1" "sect283r1" "sect409k1" "sect409r1" "sect571k1" "sect571r1" "secp160k1" "secp160r1" "secp160r2" "secp192k1" "prime192v1" "secp224k1" "secp224r1" "secp256k1" "prime256v1" "secp384r1" "secp521r1" "brainpoolP256r1" "brainpoolP384r1" "brainpoolP512r1" "X25519" "X448")
# 0. check environment variable whether it's executable
if [[ -n "$OPENSSL" ]] && [[ ! -x "$OPENSSL" ]]; then
prln_warning "\ncannot find specified (\$OPENSSL=$OPENSSL) binary."
tmln_out " Looking some place else ..."
elif [[ -x "$OPENSSL" ]]; then
: # 1. all ok supplied $OPENSSL was found and has executable bit set -- testrun comes below
elif [[ -e "/mnt/c/Windows/System32/bash.exe" ]] && test_openssl_suffix "$(dirname "$(type -p openssl)")"; then
# 2. otherwise, only if on Bash on Windows, use system binaries only.
SYSTEM2="WSL"
elif test_openssl_suffix "$TESTSSL_INSTALL_DIR"; then
: # 3. otherwise try openssl in path of testssl.sh
elif test_openssl_suffix "$TESTSSL_INSTALL_DIR/bin"; then
: # 4. otherwise here, this is supposed to be the standard --platform independent path in the future!!!
elif test_openssl_suffix "$(dirname "$(type -p openssl)")"; then
: # 5. we tried hard and failed, so now we use the system binaries
fi
# no ERRFILE initialized yet, thus we use /dev/null for stderr directly
$OPENSSL version -a 2>/dev/null >/dev/null
if [[ $? -ne 0 ]] || [[ ! -x "$OPENSSL" ]]; then
fatal "cannot exec or find any openssl binary" $ERR_OSSLBIN
fi
# https://www.openssl.org/news/changelog.html
# https://web.archive.org/web/20150815130800/http://openssl.org/news/openssl-notes.html
OSSL_NAME=$($OPENSSL version 2>/dev/null | awk '{ print $1 }')
OSSL_VER=$($OPENSSL version 2>/dev/null | awk -F' ' '{ print $2 }')
OSSL_VER_MAJOR="${OSSL_VER%%\.*}"
ossl_wo_dev_info="${OSSL_VER%%-*}"
OSSL_VER_MINOR="${ossl_wo_dev_info#$OSSL_VER_MAJOR\.}"
OSSL_VER_MINOR="${OSSL_VER_MINOR%%[a-zA-Z]*}"
OSSL_VER_APPENDIX="${OSSL_VER#$OSSL_VER_MAJOR\.$OSSL_VER_MINOR}"
OSSL_VER_PLATFORM=$($OPENSSL version -p 2>/dev/null | sed 's/^platform: //')
OSSL_BUILD_DATE=$($OPENSSL version -a 2>/dev/null | grep '^built' | sed -e 's/built on//' -e 's/: ... //' -e 's/: //' -e 's/ UTC//' -e 's/ +0000//' -e 's/.000000000//')
# see #190, reverting logic: unless otherwise proved openssl has no dh bits
case "$OSSL_VER_MAJOR.$OSSL_VER_MINOR" in
1.0.2|1.1.0|1.1.1|3.0.0) HAS_DH_BITS=true ;;
esac
if [[ "$OSSL_NAME" =~ LibreSSL ]]; then
[[ ${OSSL_VER//./} -ge 210 ]] && HAS_DH_BITS=true
if "$SSL_NATIVE"; then
outln
pr_warning "LibreSSL in native ssl mode is not a good choice for testing INSECURE features!"
fi
fi
initialize_engine
openssl_location="$(type -p $OPENSSL)"
[[ -n "$GIT_REL" ]] && \
cwd="$PWD" || \
cwd="$RUN_DIR"
if [[ "$openssl_location" == ${PWD}/bin ]]; then
OPENSSL_LOCATION="\$PWD/bin/$(basename "$openssl_location")"
elif [[ "$openssl_location" =~ $cwd ]] && [[ "$cwd" != '.' ]]; then
OPENSSL_LOCATION="${openssl_location%%$cwd}"
else
OPENSSL_LOCATION="$openssl_location"
fi
OSSL_CIPHERS_S=""
HAS_SSL2=false
HAS_SSL3=false
HAS_TLS13=false
HAS_X448=false
HAS_X25519=false
HAS_SIGALGS=false
HAS_NO_SSL2=false
HAS_NOSERVERNAME=false
HAS_CIPHERSUITES=false
HAS_SECLEVEL=false
HAS_COMP=false
HAS_NO_COMP=false
HAS_CURVES=false
OSSL_SUPPORTED_CURVES=""
HAS_PKEY=false
HAS_PKUTIL=false
HAS_ALPN=false
HAS_NPN=false
HAS_FALLBACK_SCSV=false
HAS_PROXY=false
HAS_XMPP=false
HAS_XMPP_SERVER=false
HAS_XMPP_SERVER2=false
HAS_POSTGRES=false
HAS_MYSQL=false
HAS_LMTP=false
HAS_NNTP=false
HAS_IRC=false
HAS_CHACHA20=false
HAS_AES128_GCM=false
HAS_AES256_GCM=false
HAS_ZLIB=false
HAS_UDS=false
HAS_UDS2=false
$OPENSSL ciphers -s 2>&1 | grep -aiq "unknown option" || OSSL_CIPHERS_S="-s"
# This and all other occurences we do a little trick using "invalid." to avoid plain and
# link level DNS lookups. See issue #1418 and https://tools.ietf.org/html/rfc6761#section-6.4
$OPENSSL s_client -ssl2 -connect invalid. 2>&1 | grep -aiq "unknown option" || HAS_SSL2=true
$OPENSSL s_client -ssl3 -connect invalid. 2>&1 | grep -aiq "unknown option" || HAS_SSL3=true
$OPENSSL s_client -tls1_3 -connect invalid. 2>&1 | grep -aiq "unknown option" || HAS_TLS13=true
$OPENSSL s_client -no_ssl2 -connect invalid. 2>&1 | grep -aiq "unknown option" || HAS_NO_SSL2=true
$OPENSSL genpkey -algorithm X448 2>&1 | grep -aq "not found" || HAS_X448=true
$OPENSSL genpkey -algorithm X25519 2>&1 | grep -aq "not found" || HAS_X25519=true
$OPENSSL pkey -help 2>&1 | grep -q Error || HAS_PKEY=true
$OPENSSL pkeyutl 2>&1 | grep -q Error || HAS_PKUTIL=true
if "$HAS_TLS13"; then
$OPENSSL s_client -tls1_3 -sigalgs PSS+SHA256:PSS+SHA384 -connect invalid. 2>&1 | grep -aiq "unknown option" || HAS_SIGALGS=true
fi
$OPENSSL s_client -noservername -connect invalid. 2>&1 | grep -aiq "unknown option" || HAS_NOSERVERNAME=true
$OPENSSL s_client -ciphersuites -connect invalid. 2>&1 | grep -aiq "unknown option" || HAS_CIPHERSUITES=true
$OPENSSL ciphers @SECLEVEL=0:ALL > /dev/null 2> /dev/null && HAS_SECLEVEL=true
$OPENSSL s_client -comp -connect invalid. 2>&1 | grep -aiq "unknown option" || HAS_COMP=true
$OPENSSL s_client -no_comp -connect invalid. 2>&1 | grep -aiq "unknown option" || HAS_NO_COMP=true
OPENSSL_NR_CIPHERS=$(count_ciphers "$(actually_supported_osslciphers 'ALL:COMPLEMENTOFALL' 'ALL')")
if $OPENSSL s_client -curves "${curves_ossl[0]}" -connect invalid. 2>&1 | grep -aiq "unknown option"; then
for curve in "${curves_ossl[@]}"; do
$OPENSSL s_client -groups $curve -connect invalid.:8443 2>&1 | grep -Eiaq "Error with command|unknown option|Failed to set groups"
[[ $? -ne 0 ]] && OSSL_SUPPORTED_CURVES+=" $curve "
done
else
HAS_CURVES=true
for curve in "${curves_ossl[@]}"; do
$OPENSSL s_client -curves $curve -connect invalid. 2>&1 | grep -Eiaq "Error with command|unknown option"
[[ $? -ne 0 ]] && OSSL_SUPPORTED_CURVES+=" $curve "
done
fi
# For the following we feel safe enough to query the s_client help functions.
# That was not good enough for the previous lookups
$OPENSSL s_client -help 2>$s_client_has
$OPENSSL s_client -starttls foo 2>$s_client_starttls_has
grep -q '\-proxy' $s_client_has && HAS_PROXY=true
grep -qw '\-alpn' $s_client_has && HAS_ALPN=true
grep -qw '\-nextprotoneg' $s_client_has && HAS_NPN=true
grep -qw '\-fallback_scsv' $s_client_has && HAS_FALLBACK_SCSV=true
grep -q 'xmpp' $s_client_starttls_has && HAS_XMPP=true
grep -q 'xmpp-server' $s_client_starttls_has && HAS_XMPP_SERVER=true
grep -q 'postgres' $s_client_starttls_has && HAS_POSTGRES=true
grep -q 'mysql' $s_client_starttls_has && HAS_MYSQL=true
grep -q 'lmtp' $s_client_starttls_has && HAS_LMTP=true
grep -q 'nntp' $s_client_starttls_has && HAS_NNTP=true
grep -q 'irc' $s_client_starttls_has && HAS_IRC=true
grep -q 'Unix-domain socket' $s_client_has && HAS_UDS=true
# Now check whether the standard $OPENSSL has Unix-domain socket and xmpp-server support. If
# not check /usr/bin/openssl -- if available. This is more a kludge which we shouldn't use for
# every openssl feature. At some point we need to decide which with openssl version we go.
OPENSSL2=/usr/bin/openssl
if [[ ! $OSSL_VER =~ 1.1.1 ]] && [[ ! $OSSL_VER_MAJOR =~ 3 ]]; then
if [[ -x $OPENSSL2 ]]; then
$OPENSSL2 s_client -help 2>$s_client_has2
$OPENSSL2 s_client -starttls foo 2>$s_client_starttls_has2
grep -q 'Unix-domain socket' $s_client_has2 && HAS_UDS2=true
grep -q 'xmpp-server' $s_client_starttls_has2 && HAS_XMPP_SERVER2=true
fi
fi
$OPENSSL enc -chacha20 -K 12345678901234567890123456789012 -iv 01000000123456789012345678901234 > /dev/null 2> /dev/null <<< "test"
[[ $? -eq 0 ]] && HAS_CHACHA20=true
$OPENSSL enc -aes-128-gcm -K 0123456789abcdef0123456789abcdef -iv 0123456789abcdef01234567 > /dev/null 2> /dev/null <<< "test"
[[ $? -eq 0 ]] && HAS_AES128_GCM=true
$OPENSSL enc -aes-256-gcm -K 0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef -iv 0123456789abcdef01234567 > /dev/null 2> /dev/null <<< "test"
[[ $? -eq 0 ]] && HAS_AES256_GCM=true
[[ "$(echo -e "\x78\x9C\xAB\xCA\xC9\x4C\xE2\x02\x00\x06\x20\x01\xBC" | $OPENSSL zlib -d 2>/dev/null)" == zlib ]] && HAS_ZLIB=true
if [[ -n "$CONNECT_TIMEOUT" ]] || [[ -n "$OPENSSL_TIMEOUT" ]]; then
# We don't set a general timeout as we might not have "timeout" installed and we only
# do what is instructed. Thus we check first what the command line params were,
# then we proceed
if type -p timeout >/dev/null 2>&1; then
# There are different versions of "timeout". Check whether --preserve-status is supported
if timeout --help 2>/dev/null | grep -q 'preserve-status'; then
TIMEOUT_CMD="timeout --preserve-status"
else
TIMEOUT_CMD="timeout"
fi
else
TIMEOUT_CMD=""
outln
fatal "You specified a connect or openssl timeout but the binary \"timeout\" couldn't be found " $ERR_RESOURCE
fi
fi
if ! "$do_mass_testing"; then
if [[ -n $OPENSSL_TIMEOUT ]]; then
OPENSSL="$TIMEOUT_CMD $OPENSSL_TIMEOUT $OPENSSL"
fi
fi
return 0
}
find_socat() {
local result""
result=$(type -p socat)
if [[ $? -ne 0 ]]; then
return 1
else
if [[ -x $result ]] && $result -V 2>&1 | grep -iaq 'socat version' ; then
SOCAT=$result
return 0
fi
fi
}
check4openssl_oldfarts() {
case "$OSSL_VER" in
0.9.7*|0.9.6*|0.9.5*)
# 0.9.5a was latest in 0.9.5 an released 2000/4/1, that'll NOT suffice for this test
old_fart ;;
0.9.8)
case $OSSL_VER_APPENDIX in
a|b|c|d|e) old_fart;; # no SNI!
# other than that we leave this for MacOSX and FreeBSD but it's a pain and likely gives false negatives/positives
esac
;;
esac
if [[ $OSSL_VER_MAJOR -lt 1 ]]; then ## mm: Patch for libressl
prln_warning " Your \"$OPENSSL\" is way too old (<version 1.0) !"
case $SYSTEM in
*BSD|Darwin)
out " Please use binary provided in \$INSTALLDIR/bin/ or from ports/brew or compile from "
pr_url "github.com/PeterMosmans/openssl"; outln "."
fileout_insert_warning "too_old_openssl" "WARN" "Your $OPENSSL $OSSL_VER version is way too old. Please use binary provided in \$INSTALLDIR/bin/ or from ports/brew or compile from github.com/PeterMosmans/openssl ." ;;
*) out " Update openssl binaries or compile from "
pr_url "https://github.com/PeterMosmans/openssl"; outln "."
fileout_insert_warning "too_old_openssl" "WARN" "Update openssl binaries or compile from https://github.com/PeterMosmans/openssl .";;
esac
ignore_no_or_lame " Type \"yes\" to accept false negatives or positives" "yes"
[[ $? -ne 0 ]] && exit $ERR_CLUELESS
fi
outln
}
# FreeBSD needs to have /dev/fd mounted. This is a friendly hint, see #258
check_bsd_mount() {
if [[ "$(uname)" == FreeBSD ]]; then
if ! mount | grep -q "^devfs"; then
outln "you seem to run $PROG_NAME= in a jail. Hopefully you're did \"mount -t fdescfs fdesc /dev/fd\""
elif mount | grep '/dev/fd' | grep -q fdescfs; then
:
else
fatal "You need to mount fdescfs on FreeBSD: \"mount -t fdescfs fdesc /dev/fd\"" $ERR_OTHERCLIENT
fi
fi
}
# This sets the PRINTF command for writing into TCP sockets. It is needed because
# The shell builtin printf flushes the write buffer at every \n, ("\x0a") which
# in turn means a new TCP fragment. That causes a slight performance penalty and
# and some F5s to hiccup, see #1113. Unfortunately this can be used only with GNU's
# and OpenBSD's /usr/bin/printf -- FreeBSD + OS X can't do this. Thus here we need
# to pipe through dd or cat, see socksend() and socksend_clienthello(). An empty
# $PRINTF signals the bash internal printf which then uses cat as a stdout buffer.
# A better solution needs to follow.
#
choose_printf() {
local p ptf
ptf="$(type -aP printf)"
if [[ -n "$ptf" ]]; then
for p in $ptf; do
if $p "\xc0\x14\xc0\xff\xee" | hexdump -C | grep -q 'c0 14 c0 ff ee'; then
PRINTF=$p
return 0
fi
done
fi
if type -t printf >/dev/null; then
PRINTF=""
return 0
fi
fatal "Neither external printf nor shell internal found. " $ERR_CLUELESS
}
help() {
cat << EOF
"$PROG_NAME [options] <URI>" or "$PROG_NAME <options>"
"$PROG_NAME <option>", where <option> is mostly standalone and one of:
--help what you're looking at
-b, --banner displays banner + version of $PROG_NAME
-v, --version same as previous
-V, --local [pattern] pretty print all local ciphers (of openssl only). If search pattern supplied: it is an
an ignore case word pattern of cipher hexcode or any other string in its name, kx or bits
"$PROG_NAME [options] <URI>", where <URI> is:
<URI> host|host:port|URL|URL:port port 443 is default, URL can only contain HTTPS as a protocol
and [options] is/are:
-t, --starttls <protocol> Does a run against a STARTTLS enabled service which is one of ftp, smtp, lmtp, pop3, imap,
xmpp, xmpp-server, telnet, ldap, nntp, postgres, mysql
--xmpphost <to_domain> For STARTTLS xmpp or xmpp-server checks it supplies the domainname (like SNI)
--mx <domain/host> Tests MX records from high to low priority (STARTTLS, port 25)
--file/-iL <fname> Mass testing option: Reads one testssl.sh command line per line from <fname>.
Can be combined with --serial or --parallel. Implicitly turns on "--warnings batch".
Text format 1: Comments via # allowed, EOF signals end of <fname>
Text format 2: nmap output in greppable format (-oG), 1 port per line allowed
--mode <serial|parallel> Mass testing to be done serial (default) or parallel (--parallel is shortcut for the latter)
--warnings <batch|off> "batch" doesn't continue when a testing error is encountered, off continues and skips warnings
--connect-timeout <seconds> useful to avoid hangers. Max <seconds> to wait for the TCP socket connect to return
--openssl-timeout <seconds> useful to avoid hangers. Max <seconds> to wait before openssl connect will be terminated
single check as <options> ("$PROG_NAME URI" does everything except -E and -g):
-e, --each-cipher checks each local cipher remotely
-E, --cipher-per-proto checks those per protocol
-s, --std, --standard tests certain lists of cipher suites by strength
-f, --fs, --nsa checks forward secrecy settings
-p, --protocols checks TLS/SSL protocols (including SPDY/HTTP2)
-g, --grease tests several server implementation bugs like GREASE and size limitations
-S, --server-defaults displays the server's default picks and certificate info
-P, --server-preference displays the server's picks: protocol+cipher
-x, --single-cipher <pattern> tests matched <pattern> of ciphers
(if <pattern> not a number: word match)
-c, --client-simulation test client simulations, see which client negotiates with cipher and protocol
-h, --header, --headers tests HSTS, HPKP, server/app banner, security headers, cookie, reverse proxy, IPv4 address
-U, --vulnerable tests all (of the following) vulnerabilities (if applicable)
-H, --heartbleed tests for Heartbleed vulnerability
-I, --ccs, --ccs-injection tests for CCS injection vulnerability
-T, --ticketbleed tests for Ticketbleed vulnerability in BigIP loadbalancers
--BB, --robot tests for Return of Bleichenbacher's Oracle Threat (ROBOT) vulnerability
--SI, --starttls-injection tests for STARTTLS injection issues
-R, --renegotiation tests for renegotiation vulnerabilities
-C, --compression, --crime tests for CRIME vulnerability (TLS compression issue)
-B, --breach tests for BREACH vulnerability (HTTP compression issue)
-O, --poodle tests for POODLE (SSL) vulnerability
-Z, --tls-fallback checks TLS_FALLBACK_SCSV mitigation
-W, --sweet32 tests 64 bit block ciphers (3DES, RC2 and IDEA): SWEET32 vulnerability
-A, --beast tests for BEAST vulnerability
-L, --lucky13 tests for LUCKY13
-WS, --winshock tests for winshock vulnerability
-F, --freak tests for FREAK vulnerability
-J, --logjam tests for LOGJAM vulnerability
-D, --drown tests for DROWN vulnerability
-4, --rc4, --appelbaum which RC4 ciphers are being offered?
tuning / connect options (most also can be preset via environment variables):
--fast omits some checks: using openssl for all ciphers (-e), show only first preferred cipher.
-9, --full includes tests for implementation bugs and cipher per protocol (could disappear)
--bugs enables the "-bugs" option of s_client, needed e.g. for some buggy F5s
--assume-http if protocol check fails it assumes HTTP protocol and enforces HTTP checks
--ssl-native fallback to checks with OpenSSL where sockets are normally used
--openssl <PATH> use this openssl binary (default: look in \$PATH, \$RUN_DIR of $PROG_NAME)
--proxy <host:port|auto> (experimental) proxy connects via <host:port>, auto: values from \$env (\$http(s)_proxy)
-6 also use IPv6. Works only with supporting OpenSSL version and IPv6 connectivity
--ip <ip> a) tests the supplied <ip> v4 or v6 address instead of resolving host(s) in URI
b) arg "one" means: just test the first DNS returns (useful for multiple IPs)
-n, --nodns <min|none> if "none": do not try any DNS lookups, "min" queries A, AAAA and MX records
--sneaky leave less traces in target logs: user agent, referer
--user-agent <user agent> set a custom user agent instead of the standard user agent
--ids-friendly skips a few vulnerability checks which may cause IDSs to block the scanning IP
--phone-out allow to contact external servers for CRL download and querying OCSP responder
--add-ca <CA files|CA dir> path to <CAdir> with *.pem or a comma separated list of CA files to include in trust check
--basicauth <user:pass> provide HTTP basic auth information.
--reqheader <header> add custom http request headers
output options (can also be preset via environment variables):
--quiet don't output the banner. By doing this you acknowledge usage terms normally appearing in the banner
--wide wide output for tests like RC4, BEAST. FS also with hexcode, kx, strength, RFC name
--show-each for wide outputs: display all ciphers tested -- not only succeeded ones
--mapping <openssl| openssl: use the OpenSSL cipher suite name as the primary name cipher suite name form (default)
iana|rfc -> use the IANA/(RFC) cipher suite name as the primary name cipher suite name form
no-openssl| -> don't display the OpenSSL cipher suite name, display IANA/(RFC) names only
no-iana|no-rfc> -> don't display the IANA/(RFC) cipher suite name, display OpenSSL names only
--color <0|1|2|3> 0: no escape or other codes, 1: b/w escape codes, 2: color (default), 3: extra color (color all ciphers)
--colorblind swap green and blue in the output
--debug <0-6> 1: screen output normal but keeps debug output in /tmp/. 2-6: see "grep -A 5 '^DEBUG=' testssl.sh"
--disable-rating Explicitly disables the rating output
file output options (can also be preset via environment variables)
--log, --logging logs stdout to '\${NODE}-p\${port}\${YYYYMMDD-HHMM}.log' in current working directory (cwd)
--logfile|-oL <logfile> logs stdout to 'dir/\${NODE}-p\${port}\${YYYYMMDD-HHMM}.log'. If 'logfile' is a dir or to a specified 'logfile'
--json additional output of findings to flat JSON file '\${NODE}-p\${port}\${YYYYMMDD-HHMM}.json' in cwd
--jsonfile|-oj <jsonfile> additional output to the specified flat JSON file or directory, similar to --logfile
--json-pretty additional JSON structured output of findings to a file '\${NODE}-p\${port}\${YYYYMMDD-HHMM}.json' in cwd
--jsonfile-pretty|-oJ <jsonfile> additional JSON structured output to the specified file or directory, similar to --logfile
--csv additional output of findings to CSV file '\${NODE}-p\${port}\${YYYYMMDD-HHMM}.csv' in cwd or directory
--csvfile|-oC <csvfile> additional output as CSV to the specified file or directory, similar to --logfile
--html additional output as HTML to file '\${NODE}-p\${port}\${YYYYMMDD-HHMM}.html'
--htmlfile|-oH <htmlfile> additional output as HTML to the specified file or directory, similar to --logfile
--out(f,F)ile|-oa/-oA <fname> log to a LOG,JSON,CSV,HTML file (see nmap). -oA/-oa: pretty/flat JSON.
"auto" uses '\${NODE}-p\${port}\${YYYYMMDD-HHMM}'. If fname if a dir uses 'dir/\${NODE}-p\${port}\${YYYYMMDD-HHMM}'
--hints additional hints to findings
--severity <severity> severities with lower level will be filtered for CSV+JSON, possible values <LOW|MEDIUM|HIGH|CRITICAL>
--append if (non-empty) <logfile>, <csvfile>, <jsonfile> or <htmlfile> exists, append to file. Omits any header
--overwrite if <logfile>, <csvfile>, <jsonfile> or <htmlfile> exists it overwrites it without any warning
--outprefix <fname_prefix> before '\${NODE}.' above prepend <fname_prefix>
Options requiring a value can also be called with '=' e.g. testssl.sh -t=smtp --wide --openssl=/usr/bin/openssl <URI>.
<URI> always needs to be the last parameter.
EOF
# Set HTMLHEADER and JSONHEADER to false so that the cleanup() function won't
# try to write footers to the HTML and JSON files.
HTMLHEADER=false
JSONHEADER=false
#' Fix syntax highlight on sublime
"$CHILD_MASS_TESTING" && kill -s USR1 $PPID
exit $1
}
maketempf() {
TEMPDIR=$(mktemp -d /tmp/testssl.XXXXXX 2>/dev/null)
if [[ $? -ne 0 ]]; then
# For e.g. devices where we can't write to /tmp we chose $PWD but we can't
# allow every char as we haven't quoted all strings depending on it, see #1445
if [[ $PWD =~ [^A-Za-z0-9\.,/_-] ]]; then
fatal "\$PWD contains illegal chars: \"$BASH_REMATCH\"" $ERR_FCREATE
fi
TEMPDIR=$(mktemp -d "$PWD/testssl.XXXXXX") || exit $ERR_FCREATE
fi
TMPFILE=$TEMPDIR/tempfile.txt || exit $ERR_FCREATE
if [[ "$DEBUG" -eq 0 ]]; then
ERRFILE="/dev/null"
else
ERRFILE=$TEMPDIR/errorfile.txt || exit $ERR_FCREATE
fi
HOSTCERT=$TEMPDIR/host_certificate.pem
}
prepare_debug() {
if [[ $DEBUG -ne 0 ]]; then
cat >$TEMPDIR/environment.txt << EOF
CVS_REL: $CVS_REL
GIT_REL: $GIT_REL
PID: $$
commandline: "$CMDLINE"
bash version: ${BASH_VERSINFO[0]}.${BASH_VERSINFO[1]}.${BASH_VERSINFO[2]}
status: ${BASH_VERSINFO[4]}
machine: ${BASH_VERSINFO[5]}
operating system: $SYSTEM $SYSTEMREV
os constraint: $SYSTEM2
shellopts: $SHELLOPTS
printf: $PRINTF
NO_ITALICS: $NO_ITALICS
$($OPENSSL version -a 2>/dev/null)
OSSL_VER_MAJOR: $OSSL_VER_MAJOR
OSSL_VER_MINOR: $OSSL_VER_MINOR
OSSL_VER_APPENDIX: $OSSL_VER_APPENDIX
OSSL_BUILD_DATE: $OSSL_BUILD_DATE
OSSL_VER_PLATFORM: $OSSL_VER_PLATFORM
OPENSSL_NR_CIPHERS: $OPENSSL_NR_CIPHERS
OPENSSL_CONF: $OPENSSL_CONF
HAS_CURVES: $HAS_CURVES
OSSL_SUPPORTED_CURVES: $OSSL_SUPPORTED_CURVES
HAS_IPv6: $HAS_IPv6
HAS_SSL2: $HAS_SSL2
HAS_SSL3: $HAS_SSL3
HAS_TLS13: $HAS_TLS13
HAS_X448: $HAS_X448
HAS_X25519: $HAS_X25519
HAS_SIGALGS: $HAS_SIGALGS
HAS_NO_SSL2: $HAS_NO_SSL2
HAS_SPDY: $HAS_SPDY
HAS_ALPN: $HAS_ALPN
HAS_FALLBACK_SCSV: $HAS_FALLBACK_SCSV
HAS_COMP: $HAS_COMP
HAS_NO_COMP: $HAS_NO_COMP
HAS_CIPHERSUITES: $HAS_CIPHERSUITES
HAS_SECLEVEL: $HAS_SECLEVEL
HAS_PKEY: $HAS_PKEY
HAS_PKUTIL: $HAS_PKUTIL
HAS_PROXY: $HAS_PROXY
HAS_XMPP: $HAS_XMPP
HAS_XMPP_SERVER: $HAS_XMPP_SERVER
HAS_XMPP_SERVER2: $HAS_XMPP_SERVER2
HAS_POSTGRES: $HAS_POSTGRES
HAS_MYSQL: $HAS_MYSQL
HAS_LMTP: $HAS_LMTP
HAS_NNTP: $HAS_NNTP
HAS_IRC: $HAS_IRC
HAS_UDS: $HAS_UDS
HAS_UDS2: $HAS_UDS2
HAS_DIG: $HAS_DIG
HAS_HOST: $HAS_HOST
HAS_DRILL: $HAS_DRILL
HAS_NSLOOKUP: $HAS_NSLOOKUP
HAS_IDN: $HAS_IDN
HAS_IDN2: $HAS_IDN2
HAS_AVAHIRESOLVE: $HAS_AVAHIRESOLVE
HAS_DIG_NOIDNOUT: $HAS_DIG_NOIDNOUT
HAS_DIG_R: $HAS_DIG_R
HAS_XXD: $HAS_XXD
PATH: $PATH
PROG_NAME: $PROG_NAME
TESTSSL_INSTALL_DIR: $TESTSSL_INSTALL_DIR
RUN_DIR: $RUN_DIR
CIPHERS_BY_STRENGTH_FILE: $CIPHERS_BY_STRENGTH_FILE
CAPATH: $CAPATH
COLOR: $COLOR
COLORBLIND: $COLORBLIND
TERM_WIDTH: $TERM_WIDTH
INTERACTIVE: $INTERACTIVE
HAS_GNUDATE: $HAS_GNUDATE
HAS_FREEBSDDATE: $HAS_FREEBSDDATE
HAS_OPENBSDDATE: $HAS_OPENBSDDATE
HAS_SED_E: $HAS_SED_E
SHOW_EACH_C: $SHOW_EACH_C
SSL_NATIVE: $SSL_NATIVE
ASSUME_HTTP $ASSUME_HTTP
BASICAUTH: $BASICAUTH
REQHEADER: $REQHEADER
SNEAKY: $SNEAKY
OFFENSIVE: $OFFENSIVE
PHONE_OUT: $PHONE_OUT
DEBUG: $DEBUG
HSTS_MIN: $HSTS_MIN
HPKP_MIN: $HPKP_MIN
CLIENT_MIN_FS: $CLIENT_MIN_FS
DAYS2WARN1: $DAYS2WARN1
DAYS2WARN2: $DAYS2WARN2
HEADER_MAXSLEEP: $HEADER_MAXSLEEP
MAX_WAITSOCK: $MAX_WAITSOCK
HEARTBLEED_MAX_WAITSOCK: $HEARTBLEED_MAX_WAITSOCK
CCS_MAX_WAITSOCK: $CCS_MAX_WAITSOCK
USLEEP_SND $USLEEP_SND
USLEEP_REC $USLEEP_REC
SOCAT: $SOCAT
EOF
type -p locale &>/dev/null && locale >>$TEMPDIR/environment.txt || echo "locale doesn't exist" >>$TEMPDIR/environment.txt
actually_supported_osslciphers 'ALL:COMPLEMENTOFALL' 'ALL' "-V" &>$TEMPDIR/all_local_ciphers.txt
fi
# see also $TEMPDIR/s_client_has.txt from find_openssl_binary
}
prepare_arrays() {
local hexc mac ossl_ciph
local ossl_supported_tls="" ossl_supported_sslv2=""
local -i i=0
if [[ -e "$CIPHERS_BY_STRENGTH_FILE" ]]; then
"$HAS_SSL2" && ossl_supported_sslv2="$($OPENSSL ciphers -ssl2 -V 'ALL:COMPLEMENTOFALL:@STRENGTH' 2>$ERRFILE)"
if "$HAS_SSL2"; then
ossl_supported_tls="$(actually_supported_osslciphers 'ALL:COMPLEMENTOFALL:@STRENGTH' 'ALL' "-tls1 -V")"
else
ossl_supported_tls="$(actually_supported_osslciphers 'ALL:COMPLEMENTOFALL:@STRENGTH' 'ALL' "-V")"
fi
TLS13_OSSL_CIPHERS=""
while read hexc n TLS_CIPHER_OSSL_NAME[i] TLS_CIPHER_RFC_NAME[i] TLS_CIPHER_SSLVERS[i] TLS_CIPHER_KX[i] TLS_CIPHER_AUTH[i] TLS_CIPHER_ENC[i] mac TLS_CIPHER_EXPORT[i]; do
TLS_CIPHER_HEXCODE[i]="$hexc"
TLS_CIPHER_OSSL_SUPPORTED[i]=false
if [[ ${#hexc} -eq 9 ]]; then
# >= SSLv3 ciphers
if [[ $OSSL_VER_MAJOR -lt 1 ]]; then
[[ ":${ossl_supported_tls}:" =~ ":${TLS_CIPHER_OSSL_NAME[i]}:" ]] && TLS_CIPHER_OSSL_SUPPORTED[i]=true
else
ossl_ciph="$(awk '/'"$hexc"'/ { print $3 }' <<< "$ossl_supported_tls")"
if [[ -n "$ossl_ciph" ]]; then
TLS_CIPHER_OSSL_SUPPORTED[i]=true
[[ "$ossl_ciph" != ${TLS_CIPHER_OSSL_NAME[i]} ]] && TLS_CIPHER_OSSL_NAME[i]="$ossl_ciph"
[[ "${hexc:2:2}" == 13 ]] && TLS13_OSSL_CIPHERS+=":$ossl_ciph"
fi
fi
elif [[ $OSSL_VER_MAJOR -lt 1 ]]; then
[[ ":${ossl_supported_sslv2}:" =~ ":${TLS_CIPHER_OSSL_NAME[i]}:" ]] && TLS_CIPHER_OSSL_SUPPORTED[i]=true
else
[[ "$ossl_supported_sslv2" =~ $hexc ]] && TLS_CIPHER_OSSL_SUPPORTED[i]=true
fi
i+=1
done < "$CIPHERS_BY_STRENGTH_FILE"
fi
TLS_NR_CIPHERS=i
TLS13_OSSL_CIPHERS="${TLS13_OSSL_CIPHERS:1}"
}
mybanner() {
local idtag
local bb1 bb2 bb3
"$QUIET" && return
"$CHILD_MASS_TESTING" && return
OPENSSL_NR_CIPHERS=$(count_ciphers "$(actually_supported_osslciphers 'ALL:COMPLEMENTOFALL:@STRENGTH' 'ALL')")
[[ -z "$GIT_REL" ]] && \
idtag="$CVS_REL" || \
idtag="$GIT_REL -- $CVS_REL_SHORT"
bb1=$(cat <<EOF
###########################################################
$PROG_NAME $VERSION from
EOF
)
bb2=$(cat <<EOF
This program is free software. Distribution and
modification under GPLv2 permitted.
USAGE w/o ANY WARRANTY. USE IT AT YOUR OWN RISK!
Please file bugs @
EOF
)
bb3=$(cat <<EOF
###########################################################
EOF
)
pr_bold "$bb1 "
pr_boldurl "$SWURL"; outln
if [[ -n "$idtag" ]]; then
#FIXME: if we run it not off the git dir we miss the version tag.
# at least we don't want to display empty brackets here...
pr_bold " ("
pr_grey "$idtag"
prln_bold ")"
fi
pr_bold "$bb2 "
pr_boldurl "https://testssl.sh/bugs/"; outln
pr_bold "$bb3"
outln "\n"
outln " Using \"$($OPENSSL version 2>/dev/null)\" [~$OPENSSL_NR_CIPHERS ciphers]"
out " on $HNAME:"
outln "$OPENSSL_LOCATION"
outln " (built: \"$OSSL_BUILD_DATE\", platform: \"$OSSL_VER_PLATFORM\")\n"
}
calc_scantime() {
END_TIME=$(date +%s)
SCAN_TIME=$(( END_TIME - START_TIME ))
}
cleanup() {
# If parallel mass testing is being performed, then the child tests need
# to be killed before $TEMPDIR is deleted. Otherwise, error messages
# will be created if testssl.sh is stopped before all testing is complete.
"$INTERACTIVE" && [[ $NR_PARALLEL_TESTS -gt 0 ]] && echo -en "\r \r" 1>&2
while [[ $NEXT_PARALLEL_TEST_TO_FINISH -lt $NR_PARALLEL_TESTS ]]; do
if [[ ${PARALLEL_TESTING_PID[NEXT_PARALLEL_TEST_TO_FINISH]} -ne 0 ]] && \
ps ${PARALLEL_TESTING_PID[NEXT_PARALLEL_TEST_TO_FINISH]} >/dev/null ; then
kill ${PARALLEL_TESTING_PID[NEXT_PARALLEL_TEST_TO_FINISH]} >&2 2>/dev/null
wait ${PARALLEL_TESTING_PID[NEXT_PARALLEL_TEST_TO_FINISH]} 2>/dev/null # make sure pid terminated, see wait(1p)
get_next_message_testing_parallel_result "stopped"
else
# If a test had already completed, but its output wasn't yet processed,
# then process it now.
get_next_message_testing_parallel_result "completed"
fi
NEXT_PARALLEL_TEST_TO_FINISH+=1
done
if [[ "$DEBUG" -ge 1 ]]; then
tmln_out
tm_underline "DEBUG (level $DEBUG): see files in $TEMPDIR"
tmln_out
else
[[ -d "$TEMPDIR" ]] && rm -rf "$TEMPDIR";
fi
outln
# No shorthand expression to avoid errors when $CMDLINE_PARSED haven't been filled yet.
if [[ $CMDLINE_PARSED == true ]]; then
"$SECTION_FOOTER_NEEDED" && fileout_section_footer true
html_footer
fileout_footer
fi
# debugging off, see above
grep -q xtrace <<< "$SHELLOPTS" && ! "$DEBUG_ALLINONE" && exec 2>&42 42>&-
}
# see https://unix.stackexchange.com/questions/57940/trap-int-term-exit-really-necessary
sig_cleanup() {
trap '' EXIT
cleanup
exit 0
}
child_error() {
cleanup
exit $ERR_CHILD
}
# Program terminates prematurely, with error code
# arg1: string to print / to write to file
# arg2: global error code, see ERR_* above
# arg3: an optional hint (string)
#
fatal() {
outln
prln_magenta "Fatal error: $1" >&2
[[ -n "$LOGFILE" ]] && prln_magenta "Fatal error: $1" >>$LOGFILE
if [[ -n "$3" ]]; then
outln "$3" >&2
[[ -n "$LOGFILE" ]] && outln "$3" >>$LOGFILE
fi
# Make sure we don't try to write into files when not created yet.
# No shorthand expression to avoid errors when $CMDLINE_PARSED haven't been filled yet.
[[ $CMDLINE_PARSED == true ]] && fileout "scanProblem" "FATAL" "$1"
exit $2
}
# This OTOH doesn't exit but puts a fatal error to the screen but continues with the next
# IP/hostname. It should only be used if a single IP/Hostname in a scan is not reachable.
# arg1: string to print / to write to file
#
ip_fatal() {
outln
prln_magenta "Fatal error: $1, proceeding with next IP (if any)" >&2
[[ -n "$LOGFILE" ]] && prln_magenta "Fatal error: $1, proceeding with next IP (if any)" >>$LOGFILE
outln
fileout "scanProblem" "FATAL" "$1, proceeding with next IP (if any)"
return 0
}
# This generic function outputs an error onto the screen and handles logging.
# arg1: string to print / to write to file, arg2 (optional): additional hint to write
#
generic_nonfatal() {
prln_magenta "$1" >&2
[[ -n $2 ]] && outln "$2"
[[ -n "$LOGFILE" ]] && prln_magenta "$1" >>$LOGFILE && [[ -n $2 ]] && outln "$2" >>$LOGFILE
outln
fileout "scanProblem" "WARN" "$1"
return 0
}
initialize_engine(){
# for now only GOST engine
grep -q '^# testssl config file' "$OPENSSL_CONF" 2>/dev/null && \
return 0 # We have been here already
if "$NO_ENGINE"; then
# Avoid potential conflicts also -- manual hook, see #1117
export OPENSSL_CONF=''
return 1
elif $OPENSSL engine gost -v 2>&1 | grep -Eq 'invalid command|no such engine'; then
[[ "$DEBUG" -ge 1 ]] && outln && pr_warning "No engine or GOST support via engine with your $OPENSSL"; outln
fileout_insert_warning "engine_problem" "WARN" "No engine or GOST support via engine with your $OPENSSL"
export OPENSSL_CONF=''
return 1
elif ! $OPENSSL engine gost -vvvv -t -c 2>/dev/null >/dev/null; then
# check for openssl 1.1.1 config -- not this may not be reliable. We only use this
# to suppress the warning (confuses users), see #1119
# https://github.com/openssl/openssl/commit/b524b808a1d1ba204dbdcbb42de4e3bddb3472ac
if ! grep -q 'using the .include directive' /etc/ssl/openssl.cnf; then
[[ "$DEBUG" -ge 1 ]] && outln && pr_warning "No engine or GOST support via engine with your $OPENSSL"; outln
fi
fileout_insert_warning "engine_problem" "WARN" "No engine or GOST support via engine with your $OPENSSL"
# Avoid clashes of OpenSSL 1.1.1 config file with our openssl 1.0.2. This is for Debian 10
export OPENSSL_CONF=''
return 1
else # we have engine support
if [[ -n "$OPENSSL_CONF" ]]; then
prln_warning "For now I am providing the config file to have GOST support"
else
OPENSSL_CONF=$TEMPDIR/gost.conf
# see https://www.mail-archive.com/openssl-users@openssl.org/msg65395.html
cat >$OPENSSL_CONF << EOF
# testssl config file for openssl
openssl_conf = openssl_def
[ openssl_def ]
engines = engine_section
[ engine_section ]
gost = gost_section
[ gost_section ]
engine_id = gost
default_algorithms = ALL
CRYPT_PARAMS = id-Gost28147-89-CryptoPro-A-ParamSet
EOF
[[ $? -ne 0 ]] && exit $ERR_OSSLBIN
export OPENSSL_CONF
fi
fi
return 0
}
# arg1: text to display before "-->"
# arg2: arg needed to accept to continue
ignore_no_or_lame() {
local a
[[ "$WARNINGS" == off ]] && return 0
[[ "$WARNINGS" == batch ]] && return 1
tm_warning "$1 --> "
read a
if [[ "$2" == "$(toupper "$2")" ]]; then
# all uppercase requested
if [[ "$a" == "$2" ]]; then
return 0
else
return 1
fi
elif [[ "$2" == "$(tolower "$a")" ]]; then
# we normalize the word to continue
return 0
else
return 1
fi
}
# arg1: URI
parse_hn_port() {
local tmp_port
local node_tmp=""
NODE="$1"
NODE="${NODE/https\:\/\//}" # strip "https"
NODE="${NODE%%/*}" # strip trailing urlpath
NODE="${NODE%%.}" # strip trailing "." if supplied
if grep -q ':$' <<< "$NODE"; then
if grep -wq http <<< "$NODE"; then
fatal "\"http\" is not what you meant probably" $ERR_CMDLINE
else
fatal "\"$1\" is not a valid URI" $ERR_CMDLINE
fi
fi
# Was an IPv6 address supplied like [AA:BB:CC::]:port ?
if grep -q ']' <<< "$NODE"; then
tmp_port=$(printf "$NODE" | sed 's/\[.*\]//' | sed 's/://')
# determine v6 port, supposed it was supplied additionally
if [[ -n "$tmp_port" ]]; then
PORT=$tmp_port
NODE=$(sed "s/:$PORT//" <<< "$NODE")
fi
NODE=$(sed -e 's/\[//' -e 's/\]//' <<< "$NODE")
else
# determine v4 port, supposed it was supplied additionally
grep -q ':' <<< "$NODE" && \
PORT=$(sed 's/^.*\://' <<< "$NODE") && NODE=$(sed 's/\:.*$//' <<< "$NODE")
fi
# We check for non-ASCII chars now. If there are some we'll try to convert it if IDN/IDN2 is installed
# If not, we'll continue. Hoping later that dig can use it. If not the error handler will tell
# Honestly we don't care whether it's IDN2008 or IDN2003 or Emoji domains as long as it works.
# So we try to resolve anything supplied. If it can't our resolver error handler takes care
if [[ "$NODE" == *[![:ascii:]]* ]]; then
if ! "$HAS_IDN2" && ! "$HAS_IDN"; then
prln_warning " URI contains non-ASCII characters and libidn/libidn2 not available."
outln " Trying to feed the resolver without converted \"$NODE\" ...\n"
#ToDo: fileout is missing
node_tmp="$NODE"
elif "$HAS_IDN2"; then
node_tmp="$(idn2 "$NODE" 2>/dev/null)"
fi
if "$HAS_IDN" && [[ -z "$node_tmp" ]]; then
node_tmp="$(idn "$NODE" 2>/dev/null)"
fi
if [[ -z "$node_tmp" ]]; then
prln_warning " URI contains non-ASCII characters and IDN conversion failed."
outln " Trying to feed the resolver without converted \"$NODE\" ...\n"
#ToDo: fileout is missing
node_tmp="$NODE"
fi
NODE="$node_tmp"
fi
debugme echo $NODE:$PORT
if [[ -n "$XMPP_HOST" ]]; then
# XMPP host is set, force SNI to be that
SNI="-servername $XMPP_HOST"
else
SNI="-servername $NODE"
fi
URL_PATH=$(sed 's/https:\/\///' <<< "$1" | sed 's/'"${NODE}"'//' | sed 's/.*'"${PORT}"'//') # remove protocol and node part and port
URL_PATH=$(sed 's/\/\//\//g' <<< "$URL_PATH") # we rather want // -> /
URL_PATH=${URL_PATH%%.} # strip trailing "." so that it is not interpreted as URL
[[ -z "$URL_PATH" ]] && URL_PATH="/"
debugme echo "URL_PATH: $URL_PATH"
return 0 # NODE, URL_PATH, PORT is set now
}
# args: string containing ip addresses
filter_ip6_address() {
local a
for a in "$@"; do
if ! is_ipv6addr "$a"; then
continue
fi
if "$HAS_SED_E"; then
sed -E 's/^abcdeABCDEFf0123456789:]//g' <<< "$a" | sed -e '/^$/d' -e '/^;;/d'
else
sed -r 's/[^abcdefABCDEF0123456789:]//g' <<< "$a" | sed -e '/^$/d' -e '/^;;/d'
fi
done
}
filter_ip4_address() {
local a
for a in "$@"; do
if ! is_ipv4addr "$a"; then
continue
fi
if "$HAS_SED_E"; then
sed -E 's/[^[:digit:].]//g' <<< "$a" | sed -e '/^$/d'
else
sed -r 's/[^[:digit:].]//g' <<< "$a" | sed -e '/^$/d'
fi
done
}
# For security testing sometimes we have local entries. Getent is BS under Linux for localhost: No network, no resolution
# arg1 is the entry we want to look up in the host file
get_local_aaaa() {
local ip6=""
local etchosts="/etc/hosts /c/Windows/System32/drivers/etc/hosts"
[[ -z "$1" ]] && echo "" && return 1
# Also multiple records should work fine
ip6=$(grep -wih "$1" $etchosts 2>/dev/null | grep ':' | grep -Ev '^#|\.local' | grep -Ei "[[:space:]]$1" | awk '{ print $1 }')
if is_ipv6addr "$ip6"; then
echo "$ip6"
else
echo ""
fi
}
get_local_a() {
local ip4=""
local etchosts="/etc/hosts /c/Windows/System32/drivers/etc/hosts"
ip4=$(grep -wih "$1" $etchosts 2>/dev/null | grep -Ev ':|^#|\.local' | grep -Ei "[[:space:]]$1" | awk '{ print $1 }')
if is_ipv4addr "$ip4"; then
echo "$ip4"
else
echo ""
fi
}
# Does a hard exit if no lookup binary is provided
# Checks for IDN capabilities also
#
check_resolver_bins() {
local saved_openssl_conf="$OPENSSL_CONF"
type -p dig &> /dev/null && HAS_DIG=true
type -p host &> /dev/null && HAS_HOST=true
type -p drill &> /dev/null && HAS_DRILL=true
type -p nslookup &> /dev/null && HAS_NSLOOKUP=true
type -p avahi-resolve &>/dev/null && HAS_AVAHIRESOLVE=true
type -p idn &>/dev/null && HAS_IDN=true
type -p idn2 &>/dev/null && HAS_IDN2=true
# Old dig versions don't have an option to ignore $HOME/.digrc
if dig -r 2>&1 | grep -qiE 'invalid|usage'; then
HAS_DIG_R=false
DIG_R=""
fi
OPENSSL_CONF="" # see https://github.com/drwetter/testssl.sh/issues/134
if ! "$HAS_DIG" && ! "$HAS_HOST" && ! "$HAS_DRILL" && ! "$HAS_NSLOOKUP"; then
fatal "Neither \"dig\", \"host\", \"drill\" or \"nslookup\" is present" $ERR_DNSBIN
fi
if "$HAS_DIG"; then
if dig $DIG_R +noidnout -t a 2>&1 | grep -Eq 'Invalid option: \+noidnout|IDN support not enabled'; then
:
else
HAS_DIG_NOIDNOUT=true
fi
fi
OPENSSL_CONF="$saved_openssl_conf" # see https://github.com/drwetter/testssl.sh/issues/134
return 0
}
# arg1: a host name. Returned will be 0-n IPv4 addresses
# watch out: $1 can also be a cname! --> all checked
get_a_record() {
local ip4=""
local saved_openssl_conf="$OPENSSL_CONF"
local noidnout=""
"$HAS_DIG_NOIDNOUT" && noidnout="+noidnout"
[[ "$NODNS" == none ]] && return 0 # if no DNS lookup was instructed, leave here
if [[ "$1" == localhost ]]; then
# This is a bit ugly but prevents from doing DNS lookups which could fail
echo 127.0.0.1
return 0
fi
if is_ipv4addr "$1"; then
# This saves walking through this. Also it avoids hangs e.g. if you run docker locally without reachabale DNS
echo $1
return 0
fi
OPENSSL_CONF="" # see https://github.com/drwetter/testssl.sh/issues/134
if [[ "$NODE" == *.local ]]; then
if "$HAS_AVAHIRESOLVE"; then
ip4=$(filter_ip4_address $(avahi-resolve -4 -n "$1" 2>/dev/null | awk '{ print $2 }'))
elif "$HAS_DIG"; then
ip4=$(filter_ip4_address $(dig $DIG_R @224.0.0.251 -p 5353 +short -t a +notcp "$1" 2>/dev/null | sed '/^;;/d'))
else
fatal "Local hostname given but no 'avahi-resolve' or 'dig' available." $ERR_DNSBIN
fi
fi
if [[ -z "$ip4" ]] && "$HAS_DIG"; then
ip4=$(filter_ip4_address $(dig $DIG_R +short +timeout=2 +tries=2 $noidnout -t a "$1" 2>/dev/null | awk '/^[0-9]/ { print $1 }'))
fi
if [[ -z "$ip4" ]] && "$HAS_HOST"; then
ip4=$(filter_ip4_address $(host -t a "$1" 2>/dev/null | awk '/address/ { print $NF }'))
fi
if [[ -z "$ip4" ]] && "$HAS_DRILL"; then
ip4=$(filter_ip4_address $(drill a "$1" | awk '/ANSWER SECTION/,/AUTHORITY SECTION/ { print $NF }' | awk '/^[0-9]/'))
fi
if [[ -z "$ip4" ]] && "$HAS_NSLOOKUP"; then
ip4=$(filter_ip4_address $(strip_lf "$(nslookup -querytype=a "$1" 2>/dev/null | awk '/^Name/ { getline; print $NF }')"))
fi
OPENSSL_CONF="$saved_openssl_conf" # see https://github.com/drwetter/testssl.sh/issues/134
echo "$ip4"
}
# arg1: a host name. Returned will be 0-n IPv6 addresses
# watch out: $1 can also be a cname! --> all checked
get_aaaa_record() {
local ip6=""
local saved_openssl_conf="$OPENSSL_CONF"
local noidnout=""
"$HAS_DIG_NOIDNOUT" && noidnout="+noidnout"
[[ "$NODNS" == none ]] && return 0 # if no DNS lookup was instructed, leave here
OPENSSL_CONF="" # see https://github.com/drwetter/testssl.sh/issues/134
if is_ipv6addr "$1"; then
# This saves walking through this. Also it avoids hangs e.g. if you run docker locally without reachabale DNS
echo "$1"
return 0
elif is_ipv4addr "$1"; then
# we need also this here as get_aaaa_record is always called after get_a_record and we want to handle this at a low level
return 0
fi
if [[ -z "$ip6" ]]; then
if [[ "$NODE" == *.local ]]; then
if "$HAS_AVAHIRESOLVE"; then
ip6=$(filter_ip6_address $(avahi-resolve -6 -n "$1" 2>/dev/null | awk '{ print $2 }'))
elif "$HAS_DIG"; then
ip6=$(filter_ip6_address $(dig $DIG_R @ff02::fb -p 5353 -t aaaa +short +notcp "$NODE"))
else
fatal "Local hostname given but no 'avahi-resolve' or 'dig' available." $ERR_DNSBIN
fi
elif "$HAS_DIG"; then
ip6=$(filter_ip6_address $(dig $DIG_R +short +timeout=2 +tries=2 $noidnout -t aaaa "$1" 2>/dev/null | awk '/^[0-9]/ { print $1 }'))
elif "$HAS_HOST"; then
ip6=$(filter_ip6_address $(host -t aaaa "$1" | awk '/address/ { print $NF }'))
elif "$HAS_DRILL"; then
ip6=$(filter_ip6_address $(drill aaaa "$1" | awk '/ANSWER SECTION/,/AUTHORITY SECTION/ { print $NF }' | awk '/^[0-9]/'))
elif "$HAS_NSLOOKUP"; then
ip6=$(filter_ip6_address $(strip_lf "$(nslookup -type=aaaa "$1" 2>/dev/null | awk '/'"^${a}"'.*AAAA/ { print $NF }')"))
fi
fi
OPENSSL_CONF="$saved_openssl_conf" # see https://github.com/drwetter/testssl.sh/issues/134
echo "$ip6"
}
# RFC6844: DNS Certification Authority Authorization (CAA) Resource Record
# arg1: domain to check for
get_caa_rr_record() {
local raw_caa=""
local hash len line
local -i len_caa_property
local caa_property_name
local caa_property_value
local saved_openssl_conf="$OPENSSL_CONF"
local all_caa=""
local noidnout=""
"$HAS_DIG_NOIDNOUT" && noidnout="+noidnout"
[[ -n "$NODNS" ]] && return 0 # if minimum DNS lookup was instructed, leave here
# if there's a type257 record there are two output formats here, mostly depending on age of distribution
# roughly that's the difference between text and binary format
# 1) 'google.com has CAA record 0 issue "symantec.com"'
# 2) 'google.com has TYPE257 record \# 19 0005697373756573796D616E7465632E636F6D'
# for dig +short the output always starts with '0 issue [..]' or '\# 19 [..]' so we normalize thereto to keep caa_flag, caa_property
# caa_property then has key/value pairs, see https://tools.ietf.org/html/rfc6844#section-3
OPENSSL_CONF=""
if "$HAS_DIG"; then
raw_caa="$(dig $DIG_R +short +timeout=3 +tries=3 $noidnout type257 "$1" 2>/dev/null | awk '{ print $1" "$2" "$3 }')"
# empty if no CAA record
elif "$HAS_DRILL"; then
raw_caa="$(drill $1 type257 | awk '/'"^${1}"'.*CAA/ { print $5,$6,$7 }')"
elif "$HAS_HOST"; then
raw_caa="$(host -t type257 $1)"
if grep -Ewvq "has no CAA|has no TYPE257" <<< "$raw_caa"; then
raw_caa="$(sed -e 's/^.*has CAA record //' -e 's/^.*has TYPE257 record //' <<< "$raw_caa")"
fi
elif "$HAS_NSLOOKUP"; then
raw_caa="$(strip_lf "$(nslookup -type=type257 $1 | grep -w rdata_257)")"
if [[ -n "$raw_caa" ]]; then
raw_caa="$(sed 's/^.*rdata_257 = //' <<< "$raw_caa")"
fi
else
return 1
# No dig, drill, host, or nslookup --> complaint was elsewhere already
fi
OPENSSL_CONF="$saved_openssl_conf" # see https://github.com/drwetter/testssl.sh/issues/134
debugme echo $raw_caa
if [[ "$raw_caa" =~ \#\ [0-9][0-9] ]]; then
# for posteo we get this binary format returned e.g. for old dig versions:
# \# 19 0005697373756567656F74727573742E636F6D
# \# 23 0009697373756577696C6467656F74727573742E636F6D
# \# 34 0005696F6465666D61696C746F3A686F73746D617374657240706F73 74656F2E6465
# # len caaflag <more_see_below> @ p o s t e o . d e
while read hash len line ;do
if [[ "${line:0:2}" == "00" ]]; then # probably the caa flag, always 00, so we don't keep this
len_caa_property=$(printf "%0d" "$((10#${line:2:2}))") # get len and do type casting, for posteo we have 05 or 09 here as a string
len_caa_property=$((len_caa_property*2)) # =>word! Now get name from 4th and value from 4th+len position...
line="${line/ /}" # especially with iodefs there's a blank in the string which we just skip
caa_property_name="$(hex2ascii ${line:4:$len_caa_property})"
caa_property_value="$(hex2ascii "${line:$((4+len_caa_property)):100}")"
# echo "${caa_property_name}=${caa_property_value}"
all_caa+="${caa_property_name}=${caa_property_value}\n"
else
outln "please report unknown CAA RR $line with flag @ $NODE"
return 7
fi
done <<< "$raw_caa"
sort <<< "$(safe_echo "$all_caa")"
return 0
elif grep -q '"' <<< "$raw_caa"; then
raw_caa=${raw_caa//\"/} # strip all ". Now we should have flag, name, value
#caa_property_name="$(awk '{ print $2 }' <<< "$raw_caa")"
#caa_property_value="$(awk '{ print $3 }' <<< "$raw_caa")"
safe_echo "$(sort <<< "$(awk '{ print $2"="$3 }' <<< "$raw_caa")")"
return 0
else
# no caa record
return 1
fi
# to do:
# 4: check whether $1 is a CNAME and take this
return 0
}
# arg1: domain to check for. Returned will be the MX record as a string
get_mx_record() {
local mx=""
local saved_openssl_conf="$OPENSSL_CONF"
local noidnout=""
"$HAS_DIG_NOIDNOUT" && noidnout="+noidnout"
OPENSSL_CONF="" # see https://github.com/drwetter/testssl.sh/issues/134
# we need the last two columns here
if "$HAS_HOST"; then
mx="$(host -t MX "$1" 2>/dev/null | awk '/is handled by/ { print $(NF-1), $NF }')"
elif "$HAS_DIG"; then
mx="$(dig $DIG_R +short $noidnout -t MX "$1" 2>/dev/null | awk '/^[0-9]/ { print $1" "$2 }')"
elif "$HAS_DRILL"; then
mx="$(drill mx $1 | awk '/IN[ \t]MX[ \t]+/ { print $(NF-1), $NF }')"
elif "$HAS_NSLOOKUP"; then
mx="$(strip_lf "$(nslookup -type=MX "$1" 2>/dev/null | awk '/mail exchanger/ { print $(NF-1), $NF }')")"
else
# shouldn't reach this, as we checked in the top
fatal "No dig, host, drill or nslookup" $ERR_DNSBIN
fi
OPENSSL_CONF="$saved_openssl_conf"
echo "$mx"
}
# arg1: domain / hostname. Returned will be the TXT record as a string which can be multilined
# (one entry per line), for e.g. non-MTA-STS records.
# Is supposed to be used by MTA STS in the future like get_txt_record _mta-sts.DOMAIN.TLD
get_txt_record() {
local record=""
local saved_openssl_conf="$OPENSSL_CONF"
local noidnout=""
"$HAS_DIG_NOIDNOUT" && noidnout="+noidnout"
OPENSSL_CONF="" # see https://github.com/drwetter/testssl.sh/issues/134
# we need the last two columns here and strip any remaining double quotes later
if "$HAS_HOST"; then
record="$(host -t TXT "$1" 2>/dev/null | awk -F\" '/descriptive text/ { print $(NF-1) }')"
elif "$HAS_DIG"; then
record="$(dig $DIG_R +short $noidnout -t TXT "$1" 2>/dev/null)"
elif "$HAS_DRILL"; then
record="$(drill txt $1 | awk -F\" '/^[a-z0-9].*TXT/ { print $(NF-1) }')"
elif "$HAS_NSLOOKUP"; then
record="$(strip_lf "$(nslookup -type=MX "$1" 2>/dev/null | awk -F= '/text/ { print $(NF-1), $NF }')")"
else
# shouldn't reach this, as we checked in the top
fatal "No dig, host, drill or nslookup" $ERR_DNSBIN
fi
OPENSSL_CONF="$saved_openssl_conf"
echo "${record//\"/}"
}
# set IPADDRs and IP46ADDRs
#
determine_ip_addresses() {
local ip4=""
local ip6=""
ip4="$(get_a_record "$NODE")"
ip6="$(get_aaaa_record "$NODE")"
IP46ADDRs=$(newline_to_spaces "$ip4 $ip6")
if [[ -n "$CMDLINE_IP" ]]; then
# command line has supplied an IP address or "one"
if [[ "$CMDLINE_IP" == one ]]; then
# use first IPv6 or IPv4 address
if "$HAS_IPv6" && [[ -n "$ip6" ]]; then
CMDLINE_IP="$(head -1 <<< "$ip6")"
else
CMDLINE_IP="$(head -1 <<< "$ip4")"
fi
fi
NODEIP="$CMDLINE_IP"
if is_ipv4addr "$NODEIP"; then
ip4="$NODEIP"
elif is_ipv6addr "$NODEIP"; then
ip6="$NODEIP"
else
fatal "couldn't identify supplied \"CMDLINE_IP\"" $ERR_DNSLOOKUP
fi
elif is_ipv4addr "$NODE"; then
ip4="$NODE" # only an IPv4 address was supplied as an argument, no hostname
SNI="" # override Server Name Indication as we test the IP only
else
ip4=$(get_local_a "$NODE") # is there a local host entry?
if [[ -z "$ip4" ]]; then # empty: no (LOCAL_A is predefined as false)
ip4=$(get_a_record "$NODE")
else
LOCAL_A=true # we have the ip4 from local host entry and need to signal this to testssl
fi
# same now for ipv6
ip6=$(get_local_aaaa "$NODE")
if [[ -z "$ip6" ]]; then
ip6=$(get_aaaa_record "$NODE")
else
LOCAL_AAAA=true # we have a local ipv6 entry and need to signal this to testssl
fi
fi
# IPv6 only address
if [[ -z "$ip4" ]]; then
if "$HAS_IPv6"; then
IPADDRs=$(newline_to_spaces "$ip6")
IP46ADDRs="$IPADDRs" # IP46ADDRs are the ones to display, IPADDRs the ones to test
fi
else
if "$HAS_IPv6" && [[ -n "$ip6" ]]; then
if is_ipv6addr "$CMDLINE_IP"; then
IPADDRs=$(newline_to_spaces "$ip6")
else
IPADDRs=$(newline_to_spaces "$ip4 $ip6")
fi
else
IPADDRs=$(newline_to_spaces "$ip4")
fi
fi
if [[ -z "$IPADDRs" ]]; then
if [[ -n "$ip6" ]]; then
fatal "Only IPv6 address(es) for \"$NODE\" available, maybe add \"-6\" to $0" $ERR_DNSLOOKUP
else
fatal "No IPv4/IPv6 address(es) for \"$NODE\" available" $ERR_DNSLOOKUP
fi
fi
return 0 # IPADDR and IP46ADDR is set now
}
determine_rdns() {
local saved_openssl_conf="$OPENSSL_CONF"
local nodeip="" rdns="" line=""
[[ -n "$NODNS" ]] && rDNS="(instructed to minimize DNS queries)" && return 0 # PTR records were not asked for
local nodeip="$(tr -d '[]' <<< $NODEIP)" # for DNS we do not need the square brackets of IPv6 addresses
OPENSSL_CONF="" # see https://github.com/drwetter/testssl.sh/issues/134
if [[ "$NODE" == *.local ]]; then
if "$HAS_AVAHIRESOLVE"; then
rDNS=$(avahi-resolve -a $nodeip 2>/dev/null | awk '{ print $2 }')
elif "$HAS_DIG"; then
rDNS=$(dig $DIG_R -x $nodeip @224.0.0.251 -p 5353 +notcp +noall +answer +short | awk '{ print $1 }')
fi
elif "$HAS_DIG"; then
# 1+2 should suffice. It's a compromise for if e.g. network is down but we have a docker/localhost server
rDNS=$(dig $DIG_R -x $nodeip +timeout=1 +tries=2 +noall +answer +short | awk '{ print $1 }') # +short returns also CNAME, e.g. openssl.org
elif "$HAS_HOST"; then
rDNS=$(host -t PTR $nodeip 2>/dev/null | awk '/pointer/ { print $NF }')
elif "$HAS_DRILL"; then
rDNS=$(drill -x ptr $nodeip 2>/dev/null | awk '/ANSWER SECTION/ { getline; print $NF }')
elif "$HAS_NSLOOKUP"; then
rDNS=$(strip_lf "$(nslookup -type=PTR $nodeip 2>/dev/null | grep -v 'canonical name =' | grep 'name = ' | awk '{ print $NF }' | sed 's/\.$//')")
fi
OPENSSL_CONF="$saved_openssl_conf" # see https://github.com/drwetter/testssl.sh/issues/134
# First, rDNS can contain multilines due to multiple PTR DNS records, though this is not recommended.
# So we use a loop to check for each FQDN returned. There we remove chars which under weird
# circumstances (see #1506) can show up here. The blacklist is taken from RFC 1912 ("Allowable characters in a
# label for a host name are only ASCII, letters, digits, and the `-' character")
while read -r line; do
line="$(tr -dc '[a-zA-Z0-9-_.]' <<< "$line")"
[[ -z "$rdns" ]] && rdns="$line" || rdns="$rdns $line"
done <<< "$rDNS"
rDNS="$rdns"
[[ -z "$rDNS" ]] && rDNS="--"
return 0
}
# We need to get the IP address of the proxy so we can use it in fd_socket
#
check_proxy() {
if [[ -n "$PROXY" ]]; then
if ! "$HAS_PROXY"; then
fatal "Your $OPENSSL is too old to support the \"-proxy\" option" $ERR_OSSLBIN
fi
if [[ "$PROXY" == auto ]]; then
# Get $ENV https_proxy is the one we care about for connects
PROXY="${https_proxy#*\/\/}"
# Fallback:
[[ -z "$PROXY" ]] && PROXY="${http_proxy#*\/\/}"
[[ -z "$PROXY" ]] && fatal "you specified \"--proxy=auto\" but \"\$http(s)_proxy\" is empty" $ERR_CMDLINE
fi
# strip off http/https part if supplied:
PROXY="${PROXY/http\:\/\//}"
PROXY="${PROXY/https\:\/\//}" # this shouldn't be needed
PROXYNODE="${PROXY%:*}"
PROXYPORT="${PROXY#*:}"
is_number "$PROXYPORT" || fatal "Proxy port cannot be determined from \"$PROXY\"" $ERR_CMDLINE
#if is_ipv4addr "$PROXYNODE" || is_ipv6addr "$PROXYNODE" ; then
# IPv6 via openssl -proxy: that doesn't work. Sockets does
#FIXME: finish this with LibreSSL which supports an IPv6 proxy
if is_ipv4addr "$PROXYNODE"; then
PROXYIP="$PROXYNODE"
else
PROXYIP="$(get_a_record "$PROXYNODE" 2>/dev/null | grep -v alias | sed 's/^.*address //')"
[[ -z "$PROXYIP" ]] && fatal "Proxy IP cannot be determined from \"$PROXYNODE\"" $ERR_CMDLINE
fi
PROXY="-proxy $PROXYIP:$PROXYPORT"
fi
}
# Given the ASCII-HEX of a DER-encoded distinguished name, return the string
# representation of the name.
print_dn() {
local dn="$1"
local cert name
local -i len
# Use $OPENSSL to print the DN by creating a certificate containing the DN
# as the issuer and then having $OPENSSL print the issuer field in the
# resulting certificate.
# Create the to-be-signed portion of the certificate: version || serialNumber || signature || issuer || validity || subject || subjectPublicKeyInfo
# with the DN to be printed being the issuer.
cert="A003020102020100300A06082A8648CE3D040302${dn}301E170D3139303830353038333030305A170D3139303830353038333030305A30003019301306072A8648CE3D020106082A8648CE3D030107030200FF"
# Make a SEQUENCE of the to-be-signed portion of the certificate.
len=$((${#cert}/2))
if [[ $len -lt 128 ]]; then
cert="30$(printf "%02x" $len)$cert"
elif [[ $len -lt 256 ]]; then
cert="3081$(printf "%02x" $len)$cert"
else
cert="3082$(printf "%04x" $len)$cert"
fi
# Append a signature algorithm and signature value to the end of the
# to-be-signed portion of the certificate and then make a SEQUENCE of
# the result.
cert+="300A06082A8648CE3D040302030200FF"
len=$((${#cert}/2))
if [[ $len -lt 128 ]]; then
cert="30$(printf "%02x" $len)$cert"
elif [[ $len -lt 256 ]]; then
cert="3081$(printf "%02x" $len)$cert"
else
cert="3082$(printf "%04x" $len)$cert"
fi
# Use the LDAP String Representation of Distinguished Names (RFC 2253),
# The current specification is in RFC 4514.
name="$(hex2binary "$cert" | $OPENSSL x509 -issuer -noout -inform DER -nameopt RFC2253 2>/dev/null)"
name="${name#issuer=}"
tm_out "$(strip_leading_space "$name")"
return 0
}
# Given the OpenSSL output of a response from a TLS server (with the -msg option)
# in which the response includes a CertificateRequest message, return the list of
# distinguished names that are in the CA list.
extract_calist() {
local response="$1"
local is_tls13=false
local certreq calist="" certtypes sigalgs dn
local calist_string=""
local -i len type
# Determine whether this is a TLS 1.3 response, since the information
# is encoded in a different place for TLS 1.3.
[[ "$response" =~ \<\<\<\ TLS\ 1.3[\,]?\ Handshake\ \[length\ [0-9a-fA-F]*\]\,\ CertificateRequest ]] && is_tls13=true
# Extract just the CertificateRequest message as an ASCII-HEX string.
certreq="${response##*CertificateRequest}"
certreq="0d${certreq#*0d}"
certreq="${certreq%%<<<*}"
certreq="$(strip_spaces "$(newline_to_spaces "$certreq")")"
certreq="${certreq:8}"
# Get the list of DNs from the CertificateRequest message.
if "$is_tls13"; then
# struct {
# opaque certificate_request_context<0..2^8-1>;
# Extension extensions<2..2^16-1>;
# } CertificateRequest;
len=2*$(hex2dec "${certreq:0:2}")
certreq="${certreq:$((len+2))}"
len=2*$(hex2dec "${certreq:0:4}")
certreq="${certreq:4}"
while true; do
[[ -z "$certreq" ]] && break
type=$(hex2dec "${certreq:0:4}")
len=2*$(hex2dec "${certreq:4:4}")
if [[ $type -eq 47 ]]; then
# This is the certificate_authorities extension
calist="${certreq:8:len}"
len=2*$(hex2dec "${calist:0:4}")
calist="${calist:4:len}"
break
fi
certreq="${certreq:$((len+8))}"
done
else
# struct {
# ClientCertificateType certificate_types<1..2^8-1>;
# SignatureAndHashAlgorithm
# supported_signature_algorithms<2^16-1>;
# DistinguishedName certificate_authorities<0..2^16-1>;
# } CertificateRequest;
len=2*$(hex2dec "${certreq:0:2}")
certtypes="${certreq:2:len}"
certreq="${certreq:$((len+2))}"
len=2*$(hex2dec "${certreq:0:4}")
sigalgs="${certreq:4:len}"
certreq="${certreq:$((len+4))}"
len=2*$(hex2dec "${certreq:0:4}")
calist="${certreq:4:len}"
fi
# Convert each DN to a string.
while true; do
[[ -z "$calist" ]] && break
len=2*$(hex2dec "${calist:0:4}")
dn="${calist:4:len}"
calist_string+="$(print_dn "$dn")\n"
calist="${calist:$((len+4))}"
done
[[ -z "$calist_string" ]] && calist_string="empty"
tm_out "$calist_string"
return 0
}
# this is only being called from determine_optimal_proto in order to check whether we have a server
# with client authentication, a server with no SSL session ID switched off
#
sclient_auth() {
local server_hello="$(cat -v "$2")"
local re='Master-Key: ([^\
]*)'
local connect_success=false
[[ $1 -eq 0 ]] && connect_success=true
! "$connect_success" && [[ "$server_hello" =~ $re ]] && \
[[ -n "${BASH_REMATCH[1]}" ]] && connect_success=true
! "$connect_success" && \
[[ "$server_hello" =~ (New|Reused)\,\ (SSLv[23]|TLSv1(\.[0-3])?(\/SSLv3)?)\,\ Cipher\ is\ ([A-Z0-9]+-[A-Za-z0-9\-]+|TLS_[A-Za-z0-9_]+) ]] && \
connect_success=true
if "$connect_success"; then
if [[ "$server_hello" =~ \<\<\<\ (SSL\ [23]|TLS\ 1)(\.[0-3])?[\,]?\ Handshake\ \[length\ [0-9a-fA-F]*\]\,\ CertificateRequest ]]; then
# CertificateRequest message in -msg
CLIENT_AUTH="required"
[[ $1 -eq 0 ]] && CLIENT_AUTH="optional"
CLIENT_AUTH_CA_LIST="$(extract_calist "$server_hello")"
return 0
fi
[[ $1 -eq 0 ]] && return 0
if [[ ! "$server_hello" =~ Session-ID:\ [a-fA-F0-9]{2,64} ]]; then # probably no SSL session
# do another sanity check to be sure
if [[ "$server_hello" =~ \-\-\-BEGIN\ CERTIFICATE\-\-\-.*\-\-\-END\ CERTIFICATE\-\-\- ]]; then
CLIENT_AUTH="none"
NO_SSL_SESSIONID=true # NO_SSL_SESSIONID is preset globally to false for all other cases
return 0
fi
fi
fi
# what's left now is: no protocol and ciphersuite specified, handshake returned not successful, session ID empty --> not successful
return 1
}
# Determine the best parameters to use with tls_sockets():
# For TLSv1.3, determine what extension number to use for the key_share extension.
# For TLSv1.2, determine what cipher list to send, since there are more than 128
# TLSv1.2 ciphers and some servers fail if the ClientHello contains too many ciphers.
# If both TLSv1.3 and TLSv1.2 ClientHello messages result in failed connection attempts,
# then try to determine whether:
# (1) This is an SSLv2-only server
# (2) This server supports some protocol in SSLv3 - TLSv1.1, but cannot handle version negotiation.
# (3) This is not a TLS/SSL enabled server.
# This information can be used by determine_optimal_proto() to help distinguish between a server
# that is not TLS/SSL enabled and one that is not compatible with the version of OpenSSL being used.
determine_optimal_sockets_params() {
local -i ret1=1 ret2=1
local i proto cipher_offered
local all_failed=true
# If a STARTTLS protocol is specified and $SSL_NATIVE is true, then skip this test, since
# $SSL_NATIVE may have been set to true as a result of tls_sockets() not supporting the STARTTLS
# protocol.
[[ -n "$STARTTLS_PROTOCOL" ]] && "$SSL_NATIVE" && return 0
# NOTE: The following code is only needed as long as draft versions of TLSv1.3 prior to draft 23
# are supported. It is used to determine whether a draft 23 or pre-draft 23 ClientHello should be
# sent.
KEY_SHARE_EXTN_NR="33"
tls_sockets "04" "$TLS13_CIPHER" "" "00, 2b, 00, 0f, 0e, 03,04, 7f,1c, 7f,1b, 7f,1a, 7f,19, 7f,18, 7f,17"
if [[ $? -eq 0 ]]; then
add_proto_offered tls1_3 yes
all_failed=false
else
KEY_SHARE_EXTN_NR="28"
tls_sockets "04" "$TLS13_CIPHER" "" "00, 2b, 00, 0b, 0a, 7f,16, 7f,15, 7f,14, 7f,13, 7f,12"
if [[ $? -eq 0 ]]; then
add_proto_offered tls1_3 yes
all_failed=false
else
add_proto_offered tls1_3 no
KEY_SHARE_EXTN_NR="33"
fi
fi
if ! "$all_failed"; then
# Determine which version of TLS 1.3 was offered. For drafts 18-21 the
# version appears in the ProtocolVersion field of the ServerHello. For
# drafts 22-28 and the final TLS 1.3 the ProtocolVersion field contains
# 0303 and the actual version appears in the supported_versions extension.
if [[ "${TLS_SERVER_HELLO:8:3}" == 7F1 ]]; then
add_proto_offered tls1_3_draft$(hex2dec "${TLS_SERVER_HELLO:10:2}") yes
elif [[ "$TLS_SERVER_HELLO" =~ 002B00020304 ]]; then
add_proto_offered tls1_3_rfc8446 yes
elif [[ "$TLS_SERVER_HELLO" =~ 002B00027F1[2-9A-C] ]]; then
add_proto_offered tls1_3_draft$(hex2dec "${BASH_REMATCH:10:2}") yes
fi
fi
# Need to determine which set of ciphers is best to use with
# a TLSv1.2 ClientHello since there are far more than 128 ciphers
# that can be used.
tls_sockets "03" "$TLS12_CIPHER"
ret1=$?
if [[ $ret1 -eq 0 ]] || [[ $ret1 -eq 2 ]]; then
case $DETECTED_TLS_VERSION in
0303) add_proto_offered tls1_2 yes ;;
0302) add_proto_offered tls1_1 yes ;;
0301) add_proto_offered tls1 yes ;;
0300) add_proto_offered ssl3 yes ;;
esac
all_failed=false
fi
# Try again with a different, less common, set of cipher suites
# see #807 and #806. If using these cipher suites results in a
# successful connection, then change $TLS12_CIPHER to these
# cipher suites so that later tests will use this list of cipher
# suites.
if [[ $ret1 -ne 0 ]]; then
tls_sockets "03" "$TLS12_CIPHER_2ND_TRY"
ret2=$?
if [[ $ret2 -eq 0 ]]; then
add_proto_offered tls1_2 yes
TLS12_CIPHER="$TLS12_CIPHER_2ND_TRY"
all_failed=false
else
add_proto_offered tls1_2 no
fi
if [[ $ret2 -eq 2 ]]; then
case $DETECTED_TLS_VERSION in
0302) add_proto_offered tls1_1 yes ;;
0301) add_proto_offered tls1 yes ;;
0300) add_proto_offered ssl3 yes ;;
esac
[[ $ret1 -ne 2 ]] && TLS12_CIPHER="$TLS12_CIPHER_2ND_TRY"
all_failed=false
fi
fi
if [[ $ret1 -eq 0 ]] || [[ $ret2 -eq 0 ]]; then
cipher_offered="$(get_cipher "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")"
if [[ "$cipher_offered" == TLS_* ]] || [[ "$cipher_offered" == SSL_* ]]; then
cipher_offered="$(rfc2hexcode "$cipher_offered")"
else
cipher_offered="$(openssl2hexcode "$cipher_offered")"
fi
[[ ${#cipher_offered} -eq 9 ]] && TLS12_CIPHER_OFFERED="${cipher_offered:2:2},${cipher_offered:7:2}"
fi
if "$all_failed"; then
# One of the following must be true:
# * This is not a TLS/SSL enabled server.
# * The server only supports SSLv2
# * The server does not handle version negotiation correctly.
for proto in 01 00 02; do
tls_sockets "$proto" "$TLS_CIPHER" "" "" "true"
ret1=$?
if [[ $ret1 -ne 0 ]]; then
case $proto in
02) add_proto_offered tls1_1 no ;;
01) add_proto_offered tls1 no ;;
00) add_proto_offered ssl3 no ;;
esac
fi
if [[ $ret1 -eq 0 ]] || [[ $ret1 -eq 2 ]]; then
case $DETECTED_TLS_VERSION in
0302) add_proto_offered tls1_1 yes ;;
0301) add_proto_offered tls1 yes ;;
0300) add_proto_offered ssl3 yes ;;
esac
OPTIMAL_SOCKETS_PROTO="$proto"
all_failed=false
break
fi
done
fi
if "$all_failed"; then
sslv2_sockets
[[ $? -eq 3 ]] && all_failed=false && add_proto_offered ssl2 yes
fi
ALL_FAILED_SOCKETS="$all_failed"
return 0
}
# This function determines (STARTTLS_)OPTIMAL_PROTO. It is basically a workaround function as under certain
# circumstances a ClientHello without specifying a protocol will fail.
# Circumstances observed so far: 1.) IIS 6 and openssl 1.0.2 as opposed to 1.0.1 2.) starttls + dovecot imap.
# Independent on the server side it seems reasonable to to know upfront which protocol always works
#
# arg1: if empty: no STARTTLS, else: STARTTLS protocol
# The first try in the loop is empty as we prefer not to specify always a protocol if we can get along w/o it
#
determine_optimal_proto() {
local all_failed=true
local tmp=""
local proto optimal_proto
"$do_tls_sockets" && return 0
>$ERRFILE
if [[ -n "$1" ]]; then
# STARTTLS workaround needed see https://github.com/drwetter/testssl.sh/issues/188 -- kind of odd
for STARTTLS_OPTIMAL_PROTO in -tls1_2 -tls1 -ssl3 -tls1_1 -tls1_3 -ssl2; do
case $STARTTLS_OPTIMAL_PROTO in
-tls1_3) "$HAS_TLS13" || continue ;;
-ssl3) "$HAS_SSL3" || continue ;;
-ssl2) "$HAS_SSL2" || continue ;;
*) ;;
esac
$OPENSSL s_client $(s_client_options "$STARTTLS_OPTIMAL_PROTO $BUGS -connect "$NODEIP:$PORT" $PROXY -msg $STARTTLS $SNI") </dev/null >$TMPFILE 2>>$ERRFILE
if sclient_auth $? $TMPFILE; then
all_failed=false
add_proto_offered "${STARTTLS_OPTIMAL_PROTO/-/}" yes
break
fi
done
"$all_failed" && STARTTLS_OPTIMAL_PROTO=""
optimal_proto="$STARTTLS_OPTIMAL_PROTO"
debugme echo "STARTTLS_OPTIMAL_PROTO: $STARTTLS_OPTIMAL_PROTO"
else
# No STARTTLS
for proto in '' -tls1_2 -tls1 -tls1_3 -ssl3 -tls1_1 -ssl2; do
case $proto in
-tls1_3) "$HAS_TLS13" || continue ;;
-ssl3) "$HAS_SSL3" || continue ;;
-ssl2) "$HAS_SSL2" || continue ;;
*) ;;
esac
$OPENSSL s_client $(s_client_options "$proto $BUGS -connect "$NODEIP:$PORT" -msg $PROXY $SNI") </dev/null >$TMPFILE 2>>$ERRFILE
if sclient_auth $? $TMPFILE; then
# we use the successful handshake at least to get one valid protocol supported -- it saves us time later
if [[ -z "$proto" ]]; then
# convert to openssl terminology
tmp=$(get_protocol $TMPFILE)
tmp=${tmp/\./_}
tmp=${tmp/v/}
tmp="$(tolower $tmp)"
add_proto_offered "${tmp}" yes
debugme echo "one proto determined: $tmp"
OPTIMAL_PROTO=""
else
add_proto_offered "${proto/-/}" yes
OPTIMAL_PROTO="$proto"
fi
all_failed=false
break
fi
done
"$all_failed" && OPTIMAL_PROTO=""
optimal_proto="$OPTIMAL_PROTO"
debugme echo "OPTIMAL_PROTO: $OPTIMAL_PROTO"
fi
[[ "$optimal_proto" != -ssl2 ]] && ! "$all_failed" && grep -q '^Server Temp Key' $TMPFILE && HAS_DH_BITS=true # FIX #190
if [[ "$(has_server_protocol "tls1_3")" -eq 0 ]] && [[ "$(has_server_protocol "tls1_2")" -ne 0 ]] &&
[[ "$(has_server_protocol "tls1_1")" -ne 0 ]] && [[ "$(has_server_protocol "tls1")" -ne 0 ]] &&
[[ "$(has_server_protocol "ssl3")" -ne 0 ]]; then
TLS13_ONLY=true
fi
if [[ "$optimal_proto" == -ssl2 ]]; then
prln_magenta "$NODEIP:$PORT appears to only support SSLv2."
ignore_no_or_lame " Type \"yes\" to proceed and accept false negatives or positives" "yes"
[[ $? -ne 0 ]] && exit $ERR_CLUELESS
elif "$all_failed" && ! "$ALL_FAILED_SOCKETS"; then
if ! "$HAS_TLS13" && "$TLS13_ONLY"; then
pr_magenta " $NODE:$PORT appears to support TLS 1.3 ONLY. You better use --openssl=<path_to_openssl_supporting_TLS_1.3>"
if ! "$OSSL_SHORTCUT" || [[ ! -x /usr/bin/openssl ]] || /usr/bin/openssl s_client -tls1_3 -connect invalid. 2>&1 | grep -aiq "unknown option"; then
outln
ignore_no_or_lame " Type \"yes\" to proceed and accept all scan problems" "yes"
[[ $? -ne 0 ]] && exit $ERR_CLUELESS
MAX_OSSL_FAIL=10
else
# dirty hack but an idea for the future to be implemented upfront: Now we know, we'll better off
# with the OS supplied openssl binary. We need to inittialize variables / arrays again though.
# And the service detection can't be made up for now
outln ", \n proceeding with /usr/bin/openssl"
OPENSSL=/usr/bin/openssl
find_openssl_binary
prepare_arrays
fi
elif ! "$HAS_SSL3" && [[ "$(has_server_protocol "ssl3")" -eq 0 ]] && [[ "$(has_server_protocol "tls1_3")" -ne 0 ]] && \
[[ "$(has_server_protocol "tls1_2")" -ne 0 ]] && [[ "$(has_server_protocol "tls1_1")" -ne 0 ]] &&
[[ "$(has_server_protocol "tls1")" -ne 0 ]]; then
prln_magenta " $NODE:$PORT appears to support SSLv3 ONLY. You better use --openssl=<path_to_openssl_supporting_SSL_3>"
ignore_no_or_lame " Type \"yes\" to proceed and accept all scan problems" "yes"
[[ $? -ne 0 ]] && exit $ERR_CLUELESS
MAX_OSSL_FAIL=10
else
prln_bold " Your OpenSSL cannot connect to $NODEIP:$PORT"
ignore_no_or_lame " The results might look ok but they could be nonsense. Really proceed ? (\"yes\" to continue)" "yes"
[[ $? -ne 0 ]] && exit $ERR_CLUELESS
fi
elif "$all_failed"; then
outln
if "$HAS_IPv6"; then
pr_bold " Your $OPENSSL is not IPv6 aware, or $NODEIP:$PORT "
else
pr_bold " $NODEIP:$PORT "
fi
tmpfile_handle ${FUNCNAME[0]}.txt
prln_bold "doesn't seem to be a TLS/SSL enabled server";
ignore_no_or_lame " The results might look ok but they could be nonsense. Really proceed ? (\"yes\" to continue)" "yes"
[[ $? -ne 0 ]] && exit $ERR_CLUELESS
elif ! "$all_failed" && "$ALL_FAILED_SOCKETS" && ! "$SSL_NATIVE"; then
# For some reason connecting with tls_sockets/sslv2_sockets didn't work, but connecting
# with $OPENSSL s_client did.
# FIXME: Should we include some sort of "please report" note here?
prln_magenta " Testing with $NODE:$PORT only worked using $OPENSSL."
prln_magenta " Test results may be somewhat better if the --ssl-native option is used."
ignore_no_or_lame " Type \"yes\" to proceed and accept false negatives or positives" "yes"
[[ $? -ne 0 ]] && exit $ERR_CLUELESS
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return 0
}
# arg1 (optional): ftp smtp, lmtp, pop3, imap, xmpp, xmpp-server, telnet, ldap, postgres, mysql, irc, nntp (maybe with trailing s)
#
determine_service() {
local ua
local protocol
local basicauth_header=""
local reqheader=""
# Check if we can connect to $NODEIP:$PORT. Attention: This ALWAYS uses sockets. Thus timeouts for --ssl-=native do not apply
if ! fd_socket 5; then
if [[ -n "$PROXY" ]]; then
fatal "You're sure $PROXYNODE:$PROXYPORT allows tunneling here? Can't connect to \"$NODEIP:$PORT\"" $ERR_CONNECT
else
if "$MULTIPLE_CHECKS"; then
ip_fatal "Couldn't connect to $NODEIP:$PORT"
return 1
else
fatal "Can't connect to \"$NODEIP:$PORT\"\nMake sure a firewall is not between you and your scanning target!" $ERR_CONNECT
fi
fi
fi
close_socket 5
outln
if [[ -z "$1" ]]; then
# no STARTTLS.
determine_optimal_sockets_params
determine_optimal_proto
$SNEAKY && \
ua="$UA_SNEAKY" || \
ua="$UA_STD"
if [[ -n "$BASICAUTH" ]]; then
basicauth_header="Authorization: Basic $(safe_echo "$BASICAUTH" | $OPENSSL base64 2>/dev/null)\r\n"
fi
if [[ -n "$REQHEADERS" ]]; then
reqheader="$(join_by "\r\n" "${REQHEADERS[@]}")\r\n" #Add all required custom http headers to one string with newlines
fi
GET_REQ11="GET $URL_PATH HTTP/1.1\r\nHost: $NODE\r\nUser-Agent: $ua\r\n${basicauth_header}${reqheader}Accept-Encoding: identity\r\nAccept: text/*\r\nConnection: Close\r\n\r\n"
# returns always 0:
service_detection $OPTIMAL_PROTO
else # STARTTLS
if [[ "$1" == postgres ]]; then
protocol="postgres"
else
protocol=${1%s} # strip trailing 's' in ftp(s), smtp(s), pop3(s), etc
fi
case "$protocol" in
ftp|smtp|lmtp|pop3|imap|xmpp|xmpp-server|telnet|ldap|postgres|mysql|nntp)
STARTTLS="-starttls $protocol"
if [[ "$protocol" == xmpp ]] || [[ "$protocol" == xmpp-server ]]; then
# for XMPP, openssl has a problem using -connect $NODEIP:$PORT. thus we use -connect $NODE:$PORT instead!
NODEIP="$NODE"
if [[ -n "$XMPP_HOST" ]]; then
if ! "$HAS_XMPP"; then
fatal "Your $OPENSSL does not support the \"-xmpphost\" option" $ERR_OSSLBIN
fi
STARTTLS="$STARTTLS -xmpphost $XMPP_HOST" # small hack -- instead of changing calls all over the place
# see https://xmpp.org/rfcs/rfc3920.html
else
if is_ipv4addr "$NODE"; then
# XMPP needs a jabber domainname
if [[ -n "$rDNS" ]]; then
prln_warning " IP address doesn't work for XMPP, trying PTR record $rDNS"
# remove trailing .
NODE=${rDNS%%.}
NODEIP=${rDNS%%.}
else
fatal "No DNS supplied and no PTR record available which I can try for XMPP" $ERR_DNSLOOKUP
fi
fi
fi
if [[ "$protocol" == xmpp-server ]] && ! "$HAS_XMPP_SERVER"; then
#FIXME: make use of HAS_XMPP_SERVER2
fatal "Your $OPENSSL does not support the \"-starttls xmpp-server\" option" $ERR_OSSLBIN
fi
elif [[ "$protocol" == postgres ]]; then
# Check if openssl version supports postgres.
if ! "$HAS_POSTGRES"; then
fatal "Your $OPENSSL does not support the \"-starttls postgres\" option" $ERR_OSSLBIN
fi
elif [[ "$protocol" == mysql ]]; then
# Check if openssl version supports mysql.
if ! "$HAS_MYSQL"; then
fatal "Your $OPENSSL does not support the \"-starttls mysql\" option" $ERR_OSSLBIN
fi
elif [[ "$protocol" == lmtp ]]; then
# Check if openssl version supports lmtp.
if ! "$HAS_LMTP"; then
fatal "Your $OPENSSL does not support the \"-starttls lmtp\" option" $ERR_OSSLBIN
fi
elif [[ "$protocol" == nntp ]]; then
# Check if openssl version supports lmtp.
if ! "$HAS_NNTP"; then
fatal "Your $OPENSSL does not support the \"-starttls nntp\" option" $ERR_OSSLBIN
fi
fi
determine_optimal_sockets_params
determine_optimal_proto "$1"
out " Service set:$CORRECT_SPACES STARTTLS via "
out "$(toupper "$protocol")"
[[ "$protocol" == mysql ]] && out " (experimental)"
fileout "service" "INFO" "$protocol"
[[ -n "$XMPP_HOST" ]] && out " (XMPP domain=\'$XMPP_HOST\')"
outln
;;
*) outln
fatal "momentarily only ftp, smtp, lmtp, pop3, imap, xmpp, xmpp-server, telnet, ldap, nntp, postgres and mysql allowed" $ERR_CMDLINE
;;
esac
# It comes handy later also for STARTTLS injection to define this global. When we do banner grabbing
# or replace service_detection() we might not need that anymore
SERVICE=$protocol
fi
tmpfile_handle ${FUNCNAME[0]}.txt
return 0 # OPTIMAL_PROTO, GET_REQ*/HEAD_REQ* is set now
}
# Sets SERVER_SIZE_LIMIT_BUG to true or false, depending on whether we hit the 128 cipher limit.
# Return value is 0 unless we have a problem executing
#
determine_sizelimitbug() {
# overflow_cipher must be some cipher that does not appear in TLS12_CIPHER.
local overflow_cipher='C0,86'
local -i nr_ciphers
# For STARTTLS protcols not being implemented yet via sockets this is a bypass otherwise it won't be usable at all (e.g. LDAP)
# Fixme: find out whether we can't skip this in general for STARTTLS
[[ "$STARTTLS" =~ ldap ]] && return 0
[[ "$STARTTLS" =~ irc ]] && return 0
# Only with TLS 1.2 offered at the server side it is possible to hit this bug, in practise. Thus
# we assume if TLS 1.2 is not supported, the server has no cipher size limit bug. It still may,
# theoretically, but in a regular check with testssl.sh we won't hit this limit with lower protocols.
# Upon calling this function we already know whether TLS 1.2 is supported. If TLS 1.2 is supported, we
# send 129 ciphers (including 00FF) and check whether it works.
if [[ 1 -eq $(has_server_protocol 03) ]]; then
SERVER_SIZE_LIMIT_BUG=false
else
if [[ "$DEBUG" -ge 1 ]]; then
nr_ciphers="$(tr ' ' '\n' <<< "${overflow_cipher}, $TLS12_CIPHER" | sed -e '/^$/d' | wc -l)"
if [[ $nr_ciphers -ne 129 ]]; then
prln_warning "FIXME line $LINENO, ${FUNCNAME[0]} sending $nr_ciphers ciphers rather than 129."
else
debugme echo "${FUNCNAME[0]} sending $nr_ciphers ciphers"
fi
fi
tls_sockets 03 "${overflow_cipher}, ${TLS12_CIPHER}"
if [[ $? -eq 0 ]]; then
SERVER_SIZE_LIMIT_BUG=false
else
SERVER_SIZE_LIMIT_BUG=true
fi
debugme echo -e "\nSERVER_SIZE_LIMIT_BUG: $SERVER_SIZE_LIMIT_BUG"
fi
if "$SERVER_SIZE_LIMIT_BUG"; then
out " Pre-test: "
prln_svrty_medium "128 cipher limit bug"
fileout "pre_128cipher" "MEDIUM" "128 cipher limit bug"
else
[[ "$DEBUG" -ge 1 ]] && outln " Pre-test: No 128 cipher limit bug"
fileout "pre_128cipher" "INFO" "No 128 cipher limit bug"
fi
return 0
}
display_rdns_etc() {
local ip further_ip_addrs=""
local nodeip="$(tr -d '[]' <<< $NODEIP)" # for displaying IPv6 addresses we don't need []
if [[ -n "$PROXY" ]]; then
out " Via Proxy: $CORRECT_SPACES"
outln "$PROXYIP:$PROXYPORT "
fi
if [[ $(count_words "$IP46ADDRs") -gt 1 ]]; then
out " Further IP addresses: $CORRECT_SPACES"
for ip in $IP46ADDRs; do
if [[ "$ip" == "$NODEIP" ]] || [[ "[$ip]" == "$NODEIP" ]]; then
continue
else
further_ip_addrs+="$ip "
fi
done
outln "$(out_row_aligned_max_width "$further_ip_addrs" " $CORRECT_SPACES" $TERM_WIDTH)"
fi
if "$LOCAL_A"; then
outln " A record via: $CORRECT_SPACES /etc/hosts "
elif "$LOCAL_AAAA"; then
outln " AAAA record via: $CORRECT_SPACES /etc/hosts "
elif [[ -n "$CMDLINE_IP" ]]; then
if is_ipv6addr $"$CMDLINE_IP"; then
outln " AAAA record via: $CORRECT_SPACES supplied IP \"$CMDLINE_IP\""
else
outln " A record via: $CORRECT_SPACES supplied IP \"$CMDLINE_IP\""
fi
fi
if [[ "$rDNS" =~ instructed ]]; then
out "$(printf " %-23s " "rDNS ($nodeip):")"
out "$rDNS"
elif [[ -n "$rDNS" ]]; then
out "$(printf " %-23s " "rDNS ($nodeip):")"
out "$(out_row_aligned_max_width "$rDNS" " $CORRECT_SPACES" $TERM_WIDTH)"
fi
}
datebanner() {
local scan_time_f=""
if [[ "$1" =~ Done ]] ; then
scan_time_f="$(printf "%04ss" "$SCAN_TIME")" # 4 digits because of windows
pr_reverse "$1 $(date +%F) $(date +%T) [$scan_time_f] -->> $NODEIP:$PORT ($NODE) <<--"
else
pr_reverse "$1 $(date +%F) $(date +%T) -->> $NODEIP:$PORT ($NODE) <<--"
fi
outln "\n"
[[ "$1" =~ Start ]] && display_rdns_etc
}
# one line with char $1 over screen width $2
draw_line() {
out "$(printf -- "$1"'%.s' $(eval "echo {1.."$(($2))"}"))"
}
run_mx_all_ips() {
local mxs mx
local mxport
local -i ret=0
local word=""
STARTTLS_PROTOCOL="smtp"
# test first higher priority servers
mxs=$(get_mx_record "$1" | sort -n | sed -e 's/^.* //' -e 's/\.$//' | tr '\n' ' ')
if [[ $CMDLINE_IP == one ]]; then
word="as instructed one" # with highest priority
mxs=${mxs%% *}
else
word="the only"
fi
mxport=${2:-25}
if [[ -n "$LOGFILE" ]] || [[ -n "$PARENT_LOGFILE" ]]; then
prepare_logging
else
prepare_logging "${FNAME_PREFIX}mx-$1"
fi
if [[ -n "$mxs" ]] && [[ "$mxs" != ' ' ]]; then
[[ $(count_words "$mxs") -gt 1 ]] && MULTIPLE_CHECKS=true
if "$MULTIPLE_CHECKS"; then
pr_bold "Testing all MX records (on port $mxport): "
else
pr_bold "Testing $word MX record (on port $mxport): "
fi
outln "$mxs"
[[ $mxport == 465 ]] && STARTTLS_PROTOCOL="" # no starttls for tcp 465, all other ports are starttls
for mx in $mxs; do
draw_line "-" $((TERM_WIDTH * 2 / 3))
outln
parse_hn_port "$mx:$mxport"
determine_ip_addresses || continue
if [[ $(count_words "$IPADDRs") -gt 1 ]]; then # we have more than one ipv4 address to check
MULTIPLE_CHECKS=true
pr_bold "Testing all IPv4 addresses (port $PORT): "; outln "$IPADDRs"
for ip in $IPADDRs; do
NODEIP="$ip"
lets_roll "${STARTTLS_PROTOCOL}"
done
else
NODEIP="$IPADDRs"
lets_roll "${STARTTLS_PROTOCOL}"
fi
ret=$(($? + ret))
done
draw_line "-" $((TERM_WIDTH * 2 / 3))
outln
pr_bold "Done testing all MX records (on port $mxport): "; outln "$mxs"
else
prln_bold " $1 has no MX records(s)"
fi
return $ret
}
# If run_mass_testing() is being used, then create the command line
# for the test based on the global command line (all elements of the
# command line provided to the parent, except the --file/-iL option) and the
# specific command line options for the test to be run. Each argument
# in the command line needs to be a separate element in an array in order
# to deal with word splitting within file names (see #702).
#
# If run_mass_testing_parallel() is being used, then in addition to the above,
# modify global command line for child tests so that if all (JSON, CSV, HTML)
# output is to go into a single file, each child will have its output placed in
# a separate, named file, so that the separate files can be concatenated
# together once they are complete to create the single file.
#
# If run_mass_testing() is being used, then "$1" is "serial". If
# run_mass_testing_parallel() is being used, then "$1" is "parallel XXXXXXXX"
# where XXXXXXXX is the number of the test being run.
#
create_mass_testing_cmdline() {
local testing_type="$1"
local cmd test_number
local outfile_arg
local -i nr_cmds=0 i=0
local skip_next=false
MASS_TESTING_CMDLINE=()
[[ "$testing_type" =~ parallel ]] && read -r testing_type test_number <<< "$testing_type"
# Start by adding the elements from the global command line to the command line for the
# test. If run_mass_testing_parallel(), then modify the command line so that, when
# required, each child process sends its test results to a separate file. If a cmd
# uses '=' for supplying a value we just skip next parameter (we don't use 'parse_opt_equal_sign' here)
debugme echo "${CMDLINE_ARRAY[@]}"
for cmd in "${CMDLINE_ARRAY[@]}"; do
"$skip_next" && skip_next=false && i+=1 && continue
if [[ "$cmd" =~ --file ]] || [[ "$cmd" =~ -iL ]]; then
# Don't include the "--file[=...] or -iL argument in the child's command
# line, but do include "--warnings=batch".
MASS_TESTING_CMDLINE[nr_cmds]="--warnings=batch"
nr_cmds+=1
# next is the file itself, as no '=' was supplied
[[ "$cmd" == --file ]] && skip_next=true
[[ "$cmd" == -iL ]] && skip_next=true
elif [[ "$testing_type" == serial ]]; then
if "$JSONHEADER" && ( [[ "$cmd" =~ --jsonfile-pretty ]] || [[ "$cmd" =~ -oJ ]] ); then
>"$TEMPDIR/jsonfile_child.json"
MASS_TESTING_CMDLINE[nr_cmds]="--jsonfile-pretty-parent=$TEMPDIR/jsonfile_child.json"
# next is the jsonfile itself, as no '=' was supplied
[[ "$cmd" == --jsonfile-pretty ]] && skip_next=true
[[ "$cmd" == -oJ ]] && skip_next=true
elif "$JSONHEADER" && ( [[ "$cmd" =~ --jsonfile ]] || [[ "$cmd" =~ -oj ]] ); then
>"$TEMPDIR/jsonfile_child.json"
MASS_TESTING_CMDLINE[nr_cmds]="--jsonfile-parent=$TEMPDIR/jsonfile_child.json"
# next is the jsonfile itself, as no '=' was supplied
[[ "$cmd" == --jsonfile ]] && skip_next=true
[[ "$cmd" == -oj ]] && skip_next=true
elif "$CSVHEADER" && ( [[ "$cmd" =~ --csvfile ]] || [[ "$cmd" =~ -oC ]] ); then
outfile_arg="$(parse_opt_equal_sign "$cmd" "${CMDLINE_ARRAY[i+1]}")"
MASS_TESTING_CMDLINE[nr_cmds]="--csvfile-parent=$outfile_arg"
# next is the filename itself, as no '=' was supplied
[[ "$cmd" == --csvfile ]] && skip_next=true
[[ "$cmd" == -oC ]] && skip_next=true
elif "$HTMLHEADER" && ( [[ "$cmd" =~ --htmlfile ]] || [[ "$cmd" =~ -oH ]] ); then
outfile_arg="$(parse_opt_equal_sign "$cmd" "${CMDLINE_ARRAY[i+1]}")"
MASS_TESTING_CMDLINE[nr_cmds]="--htmlfile-parent=$outfile_arg"
# next is the filename itself, as no '=' was supplied
[[ "$cmd" == --htmlfile ]] && skip_next=true
[[ "$cmd" == -oH ]] && skip_next=true
elif ( [[ "$cmd" =~ --logfile ]] || [[ "$cmd" =~ -oL ]] ); then
outfile_arg="$(parse_opt_equal_sign "$cmd" "${CMDLINE_ARRAY[i+1]}")"
MASS_TESTING_CMDLINE[nr_cmds]="--logfile-parent=$outfile_arg"
# next is the filename itself, as no '=' was supplied
[[ "$cmd" == --logfile ]] && skip_next=true
[[ "$cmd" == -oL ]] && skip_next=true
elif "$JSONHEADER" && ( [[ "$cmd" =~ --outFile ]] || [[ "$cmd" =~ -oA ]] ); then
outfile_arg="$(parse_opt_equal_sign "$cmd" "${CMDLINE_ARRAY[i+1]}")"
>"$TEMPDIR/jsonfile_child.json"
MASS_TESTING_CMDLINE[nr_cmds]="--jsonfile-pretty-parent=$TEMPDIR/jsonfile_child.json"
nr_cmds+=1
MASS_TESTING_CMDLINE[nr_cmds]="--csvfile-parent=$outfile_arg.csv"
nr_cmds+=1
MASS_TESTING_CMDLINE[nr_cmds]="--htmlfile-parent=$outfile_arg.html"
# next is the filename itself, as no '=' was supplied
[[ "$cmd" == --outFile ]] && skip_next=true
[[ "$cmd" == -oA ]] && skip_next=true
elif "$JSONHEADER" && ( [[ "$cmd" =~ --outfile ]] || [[ "$cmd" =~ -oa ]] ); then
outfile_arg="$(parse_opt_equal_sign "$cmd" "${CMDLINE_ARRAY[i+1]}")"
>"$TEMPDIR/jsonfile_child.json"
MASS_TESTING_CMDLINE[nr_cmds]="--jsonfile-parent=$TEMPDIR/jsonfile_child.json"
nr_cmds+=1
MASS_TESTING_CMDLINE[nr_cmds]="--csvfile-parent=$outfile_arg.csv"
nr_cmds+=1
MASS_TESTING_CMDLINE[nr_cmds]="--htmlfile-parent=$outfile_arg.html"
# next is the filename itself, as no '=' was supplied
[[ "$cmd" == --outfile ]] && skip_next=true
[[ "$cmd" == -oa ]] && skip_next=true
else
MASS_TESTING_CMDLINE[nr_cmds]="$cmd"
fi
nr_cmds+=1
else
case "$cmd" in
--jsonfile|--jsonfile=*|-oj|-oj=*)
# If <jsonfile> is a file, then have provide a different
# file name to each child process. If <jsonfile> is a
# directory, then just pass it on to the child processes.
if "$JSONHEADER"; then
MASS_TESTING_CMDLINE[nr_cmds]="--jsonfile-parent=$TEMPDIR/jsonfile_${test_number}.json"
# next is the jsonfile itself, as no '=' was supplied
[[ "$cmd" == --jsonfile ]] && skip_next=true
[[ "$cmd" == -oj ]] && skip_next=true
else
MASS_TESTING_CMDLINE[nr_cmds]="$cmd"
fi
;;
--jsonfile-pretty|--jsonfile-pretty=*|-oJ|-oJ=*)
if "$JSONHEADER"; then
MASS_TESTING_CMDLINE[nr_cmds]="--jsonfile-pretty-parent=$TEMPDIR/jsonfile_${test_number}.json"
[[ "$cmd" == --jsonfile-pretty ]] && skip_next=true
[[ "$cmd" == -oJ ]] && skip_next=true
else
MASS_TESTING_CMDLINE[nr_cmds]="$cmd"
fi
;;
--csvfile|--csvfile=*|-oC|-oC=*)
if "$CSVHEADER"; then
MASS_TESTING_CMDLINE[nr_cmds]="--csvfile-parent=$TEMPDIR/csvfile_${test_number}.csv"
[[ "$cmd" == --csvfile ]] && skip_next=true
[[ "$cmd" == -oC ]] && skip_next=true
else
MASS_TESTING_CMDLINE[nr_cmds]="$cmd"
fi
;;
--htmlfile|--htmlfile=*|-oH|-oH=*)
if "$HTMLHEADER"; then
MASS_TESTING_CMDLINE[nr_cmds]="--htmlfile-parent=$TEMPDIR/htmlfile_${test_number}.html"
[[ "$cmd" == --htmlfile ]] && skip_next=true
[[ "$cmd" == -oH ]] && skip_next=true
else
MASS_TESTING_CMDLINE[nr_cmds]="$cmd"
fi
;;
--logfile|--logfile=*|-oL|-oL=*)
outfile_arg="$(parse_opt_equal_sign "$cmd" "${CMDLINE_ARRAY[i+1]}")"
MASS_TESTING_CMDLINE[nr_cmds]="--logfile-parent=$outfile_arg"
[[ "$cmd" == --logfile ]] && skip_next=true
[[ "$cmd" == -oL ]] && skip_next=true
;;
--outfile|--outfile=*|-oa|-oa=*)
if "$JSONHEADER"; then
MASS_TESTING_CMDLINE[nr_cmds]="--jsonfile-parent=$TEMPDIR/jsonfile_${test_number}.json"
nr_cmds+=1
MASS_TESTING_CMDLINE[nr_cmds]="--csvfile-parent=$TEMPDIR/csvfile_${test_number}.csv"
nr_cmds+=1
MASS_TESTING_CMDLINE[nr_cmds]="--htmlfile-parent=$TEMPDIR/htmlfile_${test_number}.html"
# next is the filename itself, as no '=' was supplied
[[ "$cmd" == --outfile ]] && skip_next=true
[[ "$cmd" == -oa ]] && skip_next=true
else
MASS_TESTING_CMDLINE[nr_cmds]="$cmd"
fi
;;
--outFile|--outFile=*|-oA|-oA=*)
if "$JSONHEADER"; then
MASS_TESTING_CMDLINE[nr_cmds]="--jsonfile-pretty-parent=$TEMPDIR/jsonfile_${test_number}.json"
nr_cmds+=1
MASS_TESTING_CMDLINE[nr_cmds]="--csvfile-parent=$TEMPDIR/csvfile_${test_number}.csv"
nr_cmds+=1
MASS_TESTING_CMDLINE[nr_cmds]="--htmlfile-parent=$TEMPDIR/htmlfile_${test_number}.html"
# next is the filename itself, as no '=' was supplied
[[ "$cmd" == --outFile ]] && skip_next=true
[[ "$cmd" == -oA ]] && skip_next=true
else
MASS_TESTING_CMDLINE[nr_cmds]="$cmd"
fi
;;
*)
MASS_TESTING_CMDLINE[nr_cmds]="$cmd"
;;
esac
nr_cmds+=1
fi
i+=1
done
# Now add the command line arguments for the specific test to the command line.
# Skip the first argument sent to this function, since it specifies the type of testing being performed.
shift
while [[ $# -gt 0 ]]; do
MASS_TESTING_CMDLINE[nr_cmds]="$1"
nr_cmds+=1
shift
done
return 0
}
ports2starttls() {
local tcp_port=$1
local ret=0
# https://en.wikipedia.org/wiki/List_of_TCP_and_UDP_port_numbers
case $tcp_port in
21) echo "-t ftp " ;;
23) echo "-t telnet " ;;
119|433) echo "-t nntp " ;; # to come
25|587) echo "-t smtp " ;;
110) echo "-t pop3 " ;;
143) echo "-t imap " ;;
389) echo "-t ldap ";;
3306) echo "-t mysql " ;;
5222) echo "-t xmpp " ;; # domain of jabber server maybe needed
5432) echo "-t postgres " ;;
563) ;; # NNTPS
636) ;; # LDAP
1443|8443|443|981) ;; # HTTPS
465) ;; # HTTPS | SMTP
631) ;; # CUPS
853) ;; # DNS over TLS
995|993) ;; # POP3|IMAP
3389) ;; # RDP
*) ret=1 ;; # we don't know this ports so we rather do not scan it
esac
return $ret
}
nmap_to_plain_file() {
local target_fname=""
local oneline=""
local ip hostdontcare round_brackets ports_specs starttls
local tmp port host_spec protocol ssl_hint dontcare dontcare1
#FIXME: IPv6 is missing here
# Ok, since we are here we are sure to have an nmap file. To avoid questions we make sure it's the right format too
if [[ "$(head -1 "$FNAME")" =~ ( -oG )(.*) ]] || [[ "$(head -1 "$FNAME")" =~ ( -oA )(.*) ]] ; then
# yes, greppable
if [[ $(grep -c Status "$FNAME") -ge 1 ]]; then
[[ $(grep -c '\/open\/' "$FNAME") -eq 0 ]] && \
fatal "Nmap file $FNAME should contain at least one open port" $ERR_FNAMEPARSE
else
fatal "strange, nmap grepable misses \"Status\"" -1
fi
else
fatal "Nmap file $FNAME is not in grep(p)able format (-oG filename.g(n)map)" $ERR_FNAMEPARSE
fi
# create ${FNAME%.*}.txt in $TEMPDIR
target_fname="${FNAME%.*}.txt"
target_fname="${target_fname##*\/}" # strip path (Unix)
target_fname="${target_fname##*\\}" # strip path (Dos)
target_fname="$TEMPDIR/$target_fname"
> "${target_fname}" || fatal "Cannot create \"${target_fname}\"" $ERR_FCREATE
# Line x: "Host: AAA.BBB.CCC.DDD (<FQDN>) Status: Up"
# Line x+1: "Host: AAA.BBB.CCC.DDD (<FQDN>) Ports: 443/open/tcp//https///"
# (or): Host: AAA.BBB.CCC.DDD (<FQDN>) Ports: 22/open/tcp//ssh//<banner>/, 25/open/tcp//smtp//<banner>/, 443/open/tcp//ssl|http//<banner>
while read -r hostdontcare ip round_brackets tmp ports_specs; do
[[ "$ports_specs" =~ "Status: " ]] && continue # we don't need this
[[ "$ports_specs" =~ '/open/tcp/' ]] || continue # no open tcp at all for this IP --> move
host_spec="$ip"
fqdn="${round_brackets/\(/}"
fqdn="${fqdn/\)/}"
if [[ -n "$fqdn" ]]; then
tmp="$(get_a_record "$fqdn")"
debugme echo "$tmp \?= $ip"
if [[ "$tmp" == "$ip" ]]; then
host_spec="$fqdn"
fi
fi
while read -r oneline; do
# 25/open/tcp//smtp//<banner>/,
[[ "$oneline" =~ '/open/tcp/' ]] || continue # no open tcp for this port on this IP --> move on
IFS=/ read -r port dontcare protocol ssl_hint dontcare1 <<< "$oneline"
if [[ "$ssl_hint" =~ ^(ssl|https) ]] || [[ "$dontcare1" =~ ^(ssl|https) ]]; then
echo "${host_spec}:${port}" >>"$target_fname"
else
starttls="$(ports2starttls $port)"
[[ $? -eq 1 ]] && continue # nmap got a port but we don't know how to speak to
[[ "$DEBUG" -ge 1 ]] && echo "${starttls}$host_spec:$port"
echo "${starttls}${host_spec}:${port}" >>"$target_fname"
fi
done < <(tr ',' '\n' <<< "$ports_specs")
done < "$FNAME"
[[ "$DEBUG" -ge 1 ]] && echo
[[ -s "$target_fname" ]] || \
fatal "Couldn't find any open port in $FNAME" $ERR_FNAMEPARSE
export FNAME=$target_fname
}
run_mass_testing() {
local cmdline=""
local first=true
local gnmapadd=""
local saved_fname="$FNAME"
if [[ ! -r "$FNAME" ]] && "$IKNOW_FNAME"; then
fatal "Can't read file \"$FNAME\"" $ERR_FNAMEPARSE
fi
if [[ "$(head -1 "$FNAME")" =~ (Nmap [4-8])(.*)( scan initiated )(.*) ]]; then
gnmapadd="grep(p)able nmap "
nmap_to_plain_file
fi
pr_reverse "====== Running in file batch mode with ${gnmapadd}file=\"$saved_fname\" ======"; outln "\n"
while read -r cmdline; do
cmdline="$(filter_input "$cmdline")"
[[ -z "$cmdline" ]] && continue
[[ "$cmdline" == EOF ]] && break
# Create the command line for the child in the form of an array (see #702)
create_mass_testing_cmdline "serial" $cmdline
draw_line "=" $((TERM_WIDTH / 2)); outln;
outln "$(create_cmd_line_string "$0" "${MASS_TESTING_CMDLINE[@]}")"
# we call ourselves here. $do_mass_testing is the parent, $CHILD_MASS_TESTING... you figured
if [[ -z "$(type -p "$0")" ]]; then
CHILD_MASS_TESTING=true "$RUN_DIR/$PROG_NAME" "${MASS_TESTING_CMDLINE[@]}"
else
CHILD_MASS_TESTING=true "$0" "${MASS_TESTING_CMDLINE[@]}"
fi
if "$JSONHEADER" && [[ -s "$TEMPDIR/jsonfile_child.json" ]]; then
# Need to ensure that a separator is only added if the test
# produced some JSON output.
"$first" || fileout_separator # this is needed for appended output, see #687
first=false
cat "$TEMPDIR/jsonfile_child.json" >> "$JSONFILE"
FIRST_FINDING=false
fi
done < "${FNAME}"
return $?
}
# This function is called when it has been determined that the next child
# process has completed or it has been stopped. If the child process completed,
# then this process prints the child process's output to the terminal and, if
# appropriate, adds any JSON, CSV, and HTML output it has created to the
# appropriate file. If the child process was stopped, then a message indicating
# that is printed, but the incomplete results are not used.
#
get_next_message_testing_parallel_result() {
draw_line "=" $((TERM_WIDTH / 2)); outln;
outln "${PARALLEL_TESTING_CMDLINE[NEXT_PARALLEL_TEST_TO_FINISH]}"
if [[ "$1" == completed ]]; then
cat "$TEMPDIR/term_output_$(printf "%08d" $NEXT_PARALLEL_TEST_TO_FINISH).log"
if "$JSONHEADER" && [[ -s "$TEMPDIR/jsonfile_$(printf "%08d" $NEXT_PARALLEL_TEST_TO_FINISH).json" ]]; then
# Need to ensure that a separator is only added if the test
# produced some JSON output.
"$FIRST_JSON_OUTPUT" || fileout_separator # this is needed for appended output, see #687
FIRST_JSON_OUTPUT=false
FIRST_FINDING=false
cat "$TEMPDIR/jsonfile_$(printf "%08d" $NEXT_PARALLEL_TEST_TO_FINISH).json" >> "$JSONFILE"
fi
"$CSVHEADER" && cat "$TEMPDIR/csvfile_$(printf "%08d" $NEXT_PARALLEL_TEST_TO_FINISH).csv" >> "$CSVFILE"
"$HTMLHEADER" && cat "$TEMPDIR/htmlfile_$(printf "%08d" $NEXT_PARALLEL_TEST_TO_FINISH).html" >> "$HTMLFILE"
elif [[ "$1" == "stopped" ]]; then
outln "\nTest was stopped before it completed.\n"
else
outln "\nTest timed out before it completed.\n"
fi
}
#FIXME: not called/tested yet
run_mass_testing_parallel() {
local cmdline=""
local -i i nr_active_tests=0
local -a -i start_time=()
local -i curr_time wait_time
local gnmapadd=""
local saved_fname="$FNAME"
if [[ ! -r "$FNAME" ]] && $IKNOW_FNAME; then
fatal "Can't read file \"$FNAME\"" $ERR_FNAMEPARSE
fi
if [[ "$(head -1 "$FNAME")" =~ (Nmap [4-8])(.*)( scan initiated )(.*) ]]; then
gnmapadd="grep(p)able nmap "
nmap_to_plain_file
fi
pr_reverse "====== Running in file batch mode with ${gnmapadd}file=\"$saved_fname\" ======"; outln "\n"
while read -r cmdline; do
cmdline="$(filter_input "$cmdline")"
[[ -z "$cmdline" ]] && continue
[[ "$cmdline" == "EOF" ]] && break
# Create the command line for the child in the form of an array (see #702)
create_mass_testing_cmdline "parallel $(printf "%08d" $NR_PARALLEL_TESTS)" $cmdline
# fileout() won't include the "service" information in the JSON file for the child process
# if the JSON file doesn't already exist.
"$JSONHEADER" && >"$TEMPDIR/jsonfile_$(printf "%08d" $NR_PARALLEL_TESTS).json"
PARALLEL_TESTING_CMDLINE[NR_PARALLEL_TESTS]="$(create_cmd_line_string "$0" "${MASS_TESTING_CMDLINE[@]}")"
if [[ -z "$(type -p "$0")" ]]; then
CHILD_MASS_TESTING=true "$RUN_DIR/$PROG_NAME" "${MASS_TESTING_CMDLINE[@]}" > "$TEMPDIR/term_output_$(printf "%08d" $NR_PARALLEL_TESTS).log" 2>&1 &
else
CHILD_MASS_TESTING=true "$0" "${MASS_TESTING_CMDLINE[@]}" > "$TEMPDIR/term_output_$(printf "%08d" $NR_PARALLEL_TESTS).log" 2>&1 &
fi
PARALLEL_TESTING_PID[NR_PARALLEL_TESTS]=$!
start_time[NR_PARALLEL_TESTS]=$(date +%s)
if "$INTERACTIVE"; then
echo -en "\r \r" 1>&2
echo -n "Started test #$NR_PARALLEL_TESTS" 1>&2
[[ $NEXT_PARALLEL_TEST_TO_FINISH -lt $NR_PARALLEL_TESTS ]] && \
echo -n " (waiting for test #$NEXT_PARALLEL_TEST_TO_FINISH to finish)" 1>&2
fi
NR_PARALLEL_TESTS+=1
nr_active_tests+=1
sleep $PARALLEL_SLEEP
# Get the results of any completed tests
while [[ $NEXT_PARALLEL_TEST_TO_FINISH -lt $NR_PARALLEL_TESTS ]]; do
if [[ ${PARALLEL_TESTING_PID[NEXT_PARALLEL_TEST_TO_FINISH]} -eq 0 ]]; then
"$INTERACTIVE" && echo -en "\r \r" 1>&2
get_next_message_testing_parallel_result "completed"
NEXT_PARALLEL_TEST_TO_FINISH+=1
elif ! ps ${PARALLEL_TESTING_PID[NEXT_PARALLEL_TEST_TO_FINISH]} >/dev/null ; then
"$INTERACTIVE" && echo -en "\r \r" 1>&2
get_next_message_testing_parallel_result "completed"
NEXT_PARALLEL_TEST_TO_FINISH+=1
nr_active_tests=$nr_active_tests-1
else
break
fi
done
if [[ $nr_active_tests -ge $MAX_PARALLEL ]]; then
curr_time=$(date +%s)
while true; do
# Check to see if any test completed
for (( i=NEXT_PARALLEL_TEST_TO_FINISH; i < NR_PARALLEL_TESTS; i++ )); do
if [[ ${PARALLEL_TESTING_PID[i]} -ne 0 ]] && \
! ps ${PARALLEL_TESTING_PID[i]} >/dev/null ; then
PARALLEL_TESTING_PID[i]=0
nr_active_tests=$nr_active_tests-1
break
fi
done
[[ $nr_active_tests -lt $MAX_PARALLEL ]] && break
if [[ $curr_time-${start_time[NEXT_PARALLEL_TEST_TO_FINISH]} -ge $MAX_WAIT_TEST ]]; then
# No test completed in the allocated time, so the first one to
# start will be killed.
kill ${PARALLEL_TESTING_PID[NEXT_PARALLEL_TEST_TO_FINISH]} >&2 2>/dev/null
wait ${PARALLEL_TESTING_PID[NEXT_PARALLEL_TEST_TO_FINISH]} 2>/dev/null # make sure pid terminated, see wait(1p)
"$INTERACTIVE" && echo -en "\r \r" 1>&2
get_next_message_testing_parallel_result "timeout"
NEXT_PARALLEL_TEST_TO_FINISH+=1
nr_active_tests=$nr_active_tests-1
break
fi
# Wake up to increment the counter every second (so that the counter
# appears to users as if it is operating smoothly), but check the
# status of the $MAX_PARALLEL active processes less often, since the
# ps command is expensive.
for (( i=0; i <= $((MAX_PARALLEL/5)); i++ )); do
wait_time=$((curr_time-start_time[NEXT_PARALLEL_TEST_TO_FINISH]))
[[ $wait_time -gt $MAX_WAIT_TEST ]] && wait_time=$MAX_WAIT_TEST
if "$INTERACTIVE"; then
echo -en "\r \r" 1>&2
echo -n "Waiting for test #$NEXT_PARALLEL_TEST_TO_FINISH to finish" 1>&2
if [[ $((MAX_WAIT_TEST-wait_time)) -le 60 ]]; then
echo -n " ($((MAX_WAIT_TEST-wait_time)) seconds to timeout)" 1>&2
else
echo -n " ($wait_time seconds)" 1>&2
fi
fi
[[ $wait_time -ge $MAX_WAIT_TEST ]] && break
sleep 1
curr_time=$(date +%s)
done
done
fi
done < "$FNAME"
# Wait for remaining tests to finish
curr_time=$(date +%s)
while [[ $NEXT_PARALLEL_TEST_TO_FINISH -lt $NR_PARALLEL_TESTS ]]; do
if [[ ${PARALLEL_TESTING_PID[NEXT_PARALLEL_TEST_TO_FINISH]} -eq 0 ]] || \
! ps ${PARALLEL_TESTING_PID[NEXT_PARALLEL_TEST_TO_FINISH]} >/dev/null ; then
"$INTERACTIVE" && echo -en "\r \r" 1>&2
get_next_message_testing_parallel_result "completed"
NEXT_PARALLEL_TEST_TO_FINISH+=1
elif [[ $curr_time-${start_time[NEXT_PARALLEL_TEST_TO_FINISH]} -ge $MAX_WAIT_TEST ]]; then
kill ${PARALLEL_TESTING_PID[NEXT_PARALLEL_TEST_TO_FINISH]} >&2 2>/dev/null
wait ${PARALLEL_TESTING_PID[NEXT_PARALLEL_TEST_TO_FINISH]} 2>/dev/null # make sure pid terminated, see wait(1p)
"$INTERACTIVE" && echo -en "\r \r" 1>&2
get_next_message_testing_parallel_result "timeout"
NEXT_PARALLEL_TEST_TO_FINISH+=1
else
# Here it is okay to check process status every second, since the
# status of only one process is being checked.
if "$INTERACTIVE"; then
echo -en "\r \r" 1>&2
wait_time=$((curr_time-start_time[NEXT_PARALLEL_TEST_TO_FINISH]))
[[ $wait_time -gt $MAX_WAIT_TEST ]] && wait_time=$MAX_WAIT_TEST
echo -n "Waiting for test #$NEXT_PARALLEL_TEST_TO_FINISH to finish" 1>&2
if [[ $((MAX_WAIT_TEST-wait_time)) -le 60 ]]; then
echo -n " ($((MAX_WAIT_TEST-wait_time)) seconds to timeout)" 1>&2
else
echo -n " ($wait_time seconds)" 1>&2
fi
fi
sleep 1
curr_time=$(date +%s)
fi
done
return $?
}
run_rating() {
local final_score pre_cap_grade final_grade
local c1_score c2_score c3_score c1_wscore c2_wscore c3_wscore
local c1_worst c1_best
local c3_worst c3_best c3_worst_cb c3_best_cb
local old_ifs=$IFS sorted_reasons sorted_warnings reason_nr=0 warning_nr=0
outln "\n";
pr_headlineln " Rating (experimental) "
outln
[[ -n "$STARTTLS_PROTOCOL" ]] && set_grade_cap "T" "Encryption via STARTTLS is not mandatory (opportunistic)."
# Sort the reasons. This is just nicer to read in genereal
IFS=$'\n' sorted_reasons=($(sort -ru <<<"${GRADE_CAP_REASONS[*]}"))
IFS=$'\n' sorted_warnings=($(sort -u <<<"${GRADE_WARNINGS[*]}"))
IFS=$old_ifs
pr_bold " Rating specs"; out " (not complete) "; outln "SSL Labs's 'SSL Server Rating Guide' (version 2009q from 2020-01-30)"
pr_bold " Specification documentation "; pr_url "https://github.com/ssllabs/research/wiki/SSL-Server-Rating-Guide"
outln
fileout "rating_spec" "INFO" "SSL Labs's 'SSL Server Rating Guide' (version 2009q from 2020-01-30)"
fileout "rating_doc" "INFO" "https://github.com/ssllabs/research/wiki/SSL-Server-Rating-Guide"
# No point in calculating a score, if a cap of "F", "T", or "M" has been set
if [[ $GRADE_CAP == F || $GRADE_CAP == T || $GRADE_CAP == M ]]; then
pr_bold " Protocol Support"; out " (weighted) "; outln "0 (0)"
pr_bold " Key Exchange"; out " (weighted) "; outln "0 (0)"
pr_bold " Cipher Strength"; out " (weighted) "; outln "0 (0)"
pr_bold " Final Score "; outln "0"
pr_bold " Overall Grade "; prln_svrty_critical "$GRADE_CAP"
fileout "protocol_support_score" "INFO" "0"
fileout "protocol_support_score_weighted" "INFO" "0"
fileout "key_exchange_score" "INFO" "0"
fileout "key_exchange_score_weighted" "INFO" "0"
fileout "cipher_strength_score" "INFO" "0"
fileout "cipher_strength_score_weighted" "INFO" "0"
fileout "final_score" "INFO" "0"
fileout "overall_grade" "CRITICAL" "$GRADE_CAP"
else
## Category 1
# get best score, by searching for the best protocol, until a hit occurs
if [[ $(has_server_protocol "tls1_3") -eq 0 || $(has_server_protocol "tls1_2") -eq 0 ]]; then
c1_best=100
elif [[ $(has_server_protocol "tls1_1") -eq 0 ]]; then
c1_best=95
elif [[ $(has_server_protocol "tls1") -eq 0 ]]; then
c1_best=90
elif [[ $(has_server_protocol "ssl3") -eq 0 ]]; then
c1_best=80
# If the best protocol offered is SSLv3, cap to F. It is easier done here
set_grade_cap "F" "SSLv3 is the best protocol offered"
else # SSLv2 gives 0 points
c1_best=0
fi
# get worst score, by searching for the worst protcol, until a hit occurs
if [[ $(has_server_protocol "ssl2") -eq 0 ]]; then
c1_worst=0
elif [[ $(has_server_protocol "ssl3") -eq 0 ]]; then
c1_worst=80
elif [[ $(has_server_protocol "tls1") -eq 0 ]]; then
c1_worst=90
elif [[ $(has_server_protocol "tls1_1") -eq 0 ]]; then
c1_worst=95
else # TLS1.2 and TLS1.3 both give 100 points
c1_worst=100
fi
let c1_score="($c1_best+$c1_worst)/2" # Gets the category score
let c1_wscore=$c1_score*30/100 # Gets the weighted score for category (30%)
pr_bold " Protocol Support "; out "(weighted) "; outln "$c1_score ($c1_wscore)"
fileout "protocol_support_score" "INFO" "$c1_score"
fileout "protocol_support_score_weighted" "INFO" "$c1_wscore"
## Category 2
if [[ $KEY_EXCH_SCORE -le 40 ]]; then
set_grade_cap "F" "Using an insecure public key and/or ephemeral key"
elif [[ $KEY_EXCH_SCORE -le 80 ]]; then
set_grade_cap "B" "Using a weak public key and/or ephemeral key"
fi
let c2_score=$KEY_EXCH_SCORE
let c2_wscore=$c2_score*30/100
pr_bold " Key Exchange "; out " (weighted) "; outln "$c2_score ($c2_wscore)"
fileout "key_exchange_score" "INFO" "$c2_score"
fileout "key_exchange_score_weighted" "INFO" "$c2_wscore"
## Category 3
# Get the cipher bits sizes for the best cipher, and the worst cipher
c3_best_cb=$CIPH_STR_BEST
c3_worst_cb=$CIPH_STR_WORST
# Determine score for the best key
if [[ $c3_best_cb -ge 256 ]]; then
c3_best=100
elif [[ $c3_best_cb -ge 128 ]]; then
c3_best=80
elif [[ $c3_best_cb -ge 0 ]]; then
c3_best=20
else
c3_best=0
fi
# Determine the score for the worst key
if [[ $c3_worst_cb -gt 0 && $c3_worst_cb -lt 128 ]]; then
c3_worst=20
elif [[ $c3_worst_cb -lt 256 ]]; then
c3_worst=80
elif [[ $c3_worst_cb -ge 256 ]]; then
c3_worst=100
else
c3_worst=0
fi
let c3_score="($c3_best+$c3_worst)/2" # Gets the category score
let c3_wscore=$c3_score*40/100 # Gets the weighted score for category (40%)
pr_bold " Cipher Strength "; out " (weighted) "; outln "$c3_score ($c3_wscore)"
fileout "cipher_strength_score" "INFO" "$c3_score"
fileout "cipher_strength_score_weighted" "INFO" "$c3_wscore"
## Calculate final score and grade
let final_score=$c1_wscore+$c2_wscore+$c3_wscore
pr_bold " Final Score "; outln $final_score
fileout "final_score" "INFO" "$final_score"
# Calculate the pre-cap grade
if [[ $final_score -ge 80 ]]; then
pre_cap_grade="A"
elif [[ $final_score -ge 65 ]]; then
pre_cap_grade="B"
elif [[ $final_score -ge 50 ]]; then
pre_cap_grade="C"
elif [[ $final_score -ge 35 ]]; then
pre_cap_grade="D"
elif [[ $final_score -ge 20 ]]; then
pre_cap_grade="E"
elif [[ $final_score -lt 20 ]]; then
pre_cap_grade="F"
fi
# If the calculated grade is bigger than the grade cap, then set grade as the cap
if [[ -n "$GRADE_CAP" && ! $pre_cap_grade > $GRADE_CAP ]]; then
final_grade=$GRADE_CAP
# For "exceptional" config, an "A+" is awarded, or "A-" for slightly less "exceptional"
elif [[ -z "$GRADE_CAP" && $pre_cap_grade == A ]]; then
if [[ ${#sorted_warnings[@]} -eq 0 ]]; then
final_grade="A+"
else
final_grade="A-"
fi
else
final_grade=$pre_cap_grade
fi
pr_bold " Overall Grade "
case "$final_grade" in
A*) prln_svrty_best $final_grade
fileout "overall_grade" "OK" "$final_grade"
;;
B) prln_svrty_medium $final_grade
fileout "overall_grade" "MEDIUM" "$final_grade"
;;
C) prln_svrty_medium $final_grade
fileout "grade" "MEDIUM" "$final_grade"
;;
D) prln_svrty_high $final_grade
fileout "overall_grade" "HIGH" "$final_grade"
;;
E) prln_svrty_high $final_grade
fileout "overall_grade" "HIGH" "$final_grade"
;;
F) prln_svrty_critical $final_grade
fileout "overall_grade" "CRITICAL" "$final_grade"
;;
esac
fi
# Pretty print - again, it's just nicer to read
for reason in "${sorted_reasons[@]}"; do
if [[ $reason_nr -eq 0 ]]; then
pr_bold " Grade cap reasons "; outln "$reason"
else
outln " $reason"
fi
let reason_nr++
fileout "grade_cap_reason_${reason_nr}" "INFO" "$reason"
done
for warning in "${sorted_warnings[@]}"; do
if [[ $warning_nr -eq 0 ]]; then
pr_bold " Grade warning "; prln_svrty_medium "$warning"
else
prln_svrty_medium " $warning"
fi
let warning_nr++
fileout "grade_cap_warning_${warning_nr}" "INFO" "$warning"
done
return 0
}
# Checks whether rating can be done or not.
# Rating needs a mix of certificate and vulnerabilities checks, in order to give out proper grades.
# This function disables rating, if not all required checks are enabled
# Returns "0" if rating is enabled, and "1" if rating is disabled
set_rating_state() {
local gbl
local nr_enabled=0
# All of these should be enabled
for gbl in do_protocols do_cipherlists do_fs do_server_defaults do_header \
do_heartbleed do_ccs_injection do_ticketbleed do_robot do_renego \
do_crime do_ssl_poodle do_tls_fallback_scsv do_drown do_beast \
do_rc4 do_logjam; do
"${!gbl}" && let nr_enabled++
done
# ... atleast one of these has to be set
[[ "$do_allciphers" || "$do_cipher_per_proto" ]] && let nr_enabled++
# ... else we can't do rating
if [[ $nr_enabled -lt 18 ]]; then
do_rating=false
return 1
fi
return 0
}
# This initializes boolean global do_* variables. They keep track of what to do
# -- as the name insinuates
initialize_globals() {
do_allciphers=false
do_vulnerabilities=false
do_beast=false
do_lucky13=false
do_breach=false
do_ccs_injection=false
do_ticketbleed=false
do_robot=false
do_cipher_per_proto=false
do_crime=false
do_freak=false
do_logjam=false
do_drown=false
do_header=false
do_heartbleed=false
do_mx_all_ips=false
do_mass_testing=false
do_logging=false
do_json=false
do_pretty_json=false
do_csv=false
do_html=false
do_fs=false
do_protocols=false
do_rc4=false
do_starttls_injection=false
do_winshock=false
do_grease=false
do_renego=false
do_cipherlists=false
do_server_defaults=false
do_server_preference=false
do_ssl_poodle=false
do_sweet32=false
do_tls_fallback_scsv=false
do_cipher_match=false
do_tls_sockets=false
do_client_simulation=false
do_display_only=false
do_starttls=false
do_rating=false
}
# Set default scanning options for the boolean global do_* variables.
set_scanning_defaults() {
do_allciphers=false
do_vulnerabilities=true
do_beast=true
do_lucky13=true
do_breach=true
do_heartbleed="$OFFENSIVE"
do_ccs_injection="$OFFENSIVE"
do_ticketbleed="$OFFENSIVE"
do_robot="$OFFENSIVE"
do_crime=true
do_freak=true
do_logjam=true
do_drown=true
do_ssl_poodle=true
do_sweet32=true
do_header=true
do_fs=true
do_rc4=true
do_starttls_injection=true
do_winshock=true
do_protocols=true
do_renego=true
do_cipherlists=true
do_server_defaults=true
do_server_preference=true
do_tls_fallback_scsv=true
do_client_simulation=true
if "$OFFENSIVE"; then
VULN_COUNT=17
else
VULN_COUNT=13
fi
do_rating=true
}
# returns number of $do variables set = number of run_funcs() to perform
count_do_variables() {
local gbl
local true_nr=0
for gbl in do_allciphers do_vulnerabilities do_beast do_lucky13 do_breach do_ccs_injection do_ticketbleed do_cipher_per_proto do_crime \
do_freak do_logjam do_drown do_header do_heartbleed do_mx_all_ips do_fs do_protocols do_rc4 do_starttls_injection do_grease do_robot do_renego \
do_cipherlists do_server_defaults do_server_preference do_ssl_poodle do_tls_fallback_scsv do_winshock \
do_sweet32 do_client_simulation do_cipher_match do_tls_sockets do_mass_testing do_display_only do_rating; do
"${!gbl}" && let true_nr++
done
return $true_nr
}
debug_globals() {
local gbl
for gbl in do_allciphers do_vulnerabilities do_beast do_lucky13 do_breach do_ccs_injection do_ticketbleed do_cipher_per_proto do_crime \
do_freak do_logjam do_drown do_header do_heartbleed do_mx_all_ips do_fs do_protocols do_rc4 do_starttls_injection do_grease do_robot do_renego \
do_cipherlists do_server_defaults do_server_preference do_ssl_poodle do_tls_fallback_scsv do_winshock \
do_sweet32 do_client_simulation do_cipher_match do_tls_sockets do_mass_testing do_display_only do_rating; do
printf "%-22s = %s\n" $gbl "${!gbl}"
done
# ${!var} is an indirect expansion, see https://www.gnu.org/software/bash/manual/html_node/Shell-Parameter-Expansion.html
# Example: https://stackoverflow.com/questions/8515411/what-is-indirect-expansion-what-does-var-mean#8515492
printf "%-22s : %s\n" URI: "$URI"
}
# This is determining the tests which should be skipped by --no-* or --disable-* a a cmdline arg.
# It achieves that by setting the do_<variables> according to the global array $SKIP_TESTS
#
set_skip_tests() {
local t
for t in ${SKIP_TESTS[@]} ; do
t="do_${t}"
# declare won't do it here --> local scope
eval "$t"=false
debugme printf '%s\n' "set $t: ${!t}"
done
}
# arg1: either switch+value (=) or switch
# arg2: value (if no = provided)
parse_opt_equal_sign() {
if [[ "$1" == *=* ]]; then
echo ${1#*=}
return 1 # = means we don't need to shift args!
else
echo "$2"
return 0 # we need to shift
fi
}
# Create the command line string for printing purposes
# See https://stackoverflow.com/questions/10835933/preserve-quotes-in-bash-arguments
create_cmd_line_string() {
local arg
local -a allargs=()
local chars='[ !"#$&()*,;<>?\^`{|}]'
while [[ $# -gt 0 ]]; do
if [[ $1 == *\'* ]]; then
arg=\""$1"\"
elif [[ $1 == *$chars* ]]; then
arg="'$1'"
else
arg="$1"
fi
allargs+=("$arg") # ${allargs[@]} is to be used only for printing
shift
done
printf '%s\n' "${allargs[*]}"
}
check_base_requirements() {
local binary=''
local whitelist=' hexdump grep awk sed '
for binary in 'hexdump' 'dd' 'grep' 'awk' 'tr' 'sed' 'wc' 'date' 'cat' 'ps' 'kill' 'head' 'tail' 'dirname'; do
if ! type -p "${binary}" &> /dev/null; then
fatal "You need to install ${binary} for this program to work" $ERR_RESOURCE
fi
[[ ${whitelist} =~ \ ${binary}\ ]] && continue
"${binary}" --help 2>&1 | grep -iq busybox
if [[ $? -eq 0 ]]; then
fatal "${binary} is from busybox. Please install a regular binary" $ERR_RESOURCE
fi
done
# testssl.sh works without xxd, but using xxd is faster. The following checks that the xxd
# binary is available and (just to be safe) that "xxd -r -p" works as expected.
if type -p xxd &> /dev/null && [[ "$(xxd -r -p <<< "30313233343536373839" 2>/dev/null)" == 0123456789 ]]; then
HAS_XXD=true
fi
}
parse_cmd_line() {
local outfile_arg=""
local cipher_mapping
local -i subret=0
CMDLINE="$(create_cmd_line_string "${CMDLINE_ARRAY[@]}")"
CMDLINE_PARSED=false
case $1 in
--help|"")
help 0
;;
-b|--banner|-v|--version)
maketempf
get_install_dir
find_openssl_binary
prepare_debug
mybanner
exit $ALLOK
;;
esac
# set all do_* globals to false
initialize_globals
while [[ $# -gt 0 ]]; do
case $1 in
--help|-b|--banner|-v|--version)
fatal "$1 is a standalone command line option" $ERR_CMDLINE
;;
--mx)
do_mx_all_ips=true
PORT=25
;;
--mx465) # doesn't work with major ISPs
do_mx_all_ips=true
PORT=465
;;
--mx587) # doesn't work with major ISPs
do_mx_all_ips=true
PORT=587
;;
--ip|--ip=*)
CMDLINE_IP="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
if [[ "$CMDLINE_IP" == proxy ]]; then
DNS_VIA_PROXY=true
unset CMDLINE_IP
fi
# normalize any IPv6 address
CMDLINE_IP="${CMDLINE_IP//[/}" # fix vim syntax highlighting "]
CMDLINE_IP="${CMDLINE_IP//]/}"
;;
-n|--nodns|-n=*|--nodns=*)
NODNS="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
if [[ "$NODNS" != none ]] && [[ "$NODNS" != min ]]; then
fatal "Value for nodns switch can be either \"min\" or \"none\"" $ERR_CMDLINE
fi
;;
-V|-V=*|--local|--local=*) # attention, this could have a value or not!
do_display_only=true
PATTERN2SHOW="$(parse_opt_equal_sign "$1" "$2")"
subret=$?
if [[ "$PATTERN2SHOW" == -* ]]; then
unset PATTERN2SHOW # we hit the next command ==> not our value
else # it was ours, point to next arg
[[ $subret -eq 0 ]] && shift
fi
;;
-x|-x=*|--single[-_]cipher|--single[-_]cipher=*)
do_cipher_match=true
single_cipher=$(parse_opt_equal_sign "$1" "$2")
[[ $? -eq 0 ]] && shift
;;
-t|-t=*|--starttls|--starttls=*)
do_starttls=true
STARTTLS_PROTOCOL="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
case $STARTTLS_PROTOCOL in
ftp|smtp|lmtp|pop3|imap|xmpp|xmpp-server|telnet|ldap|irc|nntp|postgres|mysql) ;;
ftps|smtps|lmtps|pop3s|imaps|xmpps|telnets|ldaps|ircs|nntps|mysqls) ;;
*) tmln_magenta "\nunrecognized STARTTLS protocol \"$1\", see help" 1>&2
help 1 ;;
esac
;;
--xmpphost|--xmpphost=*)
XMPP_HOST=$(parse_opt_equal_sign "$1" "$2")
[[ $? -eq 0 ]] && shift
;;
-e|--each-cipher)
do_allciphers=true
;;
-E|--cipher-per-proto|--cipher_per_proto)
do_cipher_per_proto=true
;;
-p|--protocols)
do_protocols=true
;;
-s|--std|--standard)
do_cipherlists=true
;;
-S|--server[-_]defaults)
do_server_defaults=true
;;
-P|--server[_-]preference|--preference)
do_server_preference=true
;;
-h|--header|--headers)
do_header=true
;;
-c|--client-simulation)
do_client_simulation=true
;;
-U|--vulnerable|--vulnerabilities)
# Lookahead function: If the order of the cmdline is '-U --ids-friendly'
# then we need to make sure we catch --ids-friendly. Normally we do not,
# see #1717. The following statement makes sure. In the do-while + case-esac
# loop it will be execute again, but it does not hurt
if [[ "${CMDLINE_ARRAY[@]}" =~ --ids-friendly ]]; then
OFFENSIVE=false
fi
do_vulnerabilities=true
do_heartbleed="$OFFENSIVE"
do_ccs_injection="$OFFENSIVE"
do_ticketbleed="$OFFENSIVE"
do_robot="$OFFENSIVE"
do_renego=true
do_crime=true
do_breach=true
do_ssl_poodle=true
do_tls_fallback_scsv=true
do_sweet32=true
do_freak=true
do_drown=true
do_logjam=true
do_beast=true
do_lucky13=true
do_winshock=true
do_rc4=true
do_starttls_injection=true
if "$OFFENSIVE"; then
VULN_COUNT=17
else
VULN_COUNT=13
fi
;;
--ids-friendly)
OFFENSIVE=false
;;
-H|--heartbleed)
do_heartbleed=true
let "VULN_COUNT++"
;;
-I|--ccs|--ccs[-_]injection)
do_ccs_injection=true
let "VULN_COUNT++"
;;
-T|--ticketbleed)
do_ticketbleed=true
let "VULN_COUNT++"
;;
-BB|--BB|--robot)
do_robot=true
;;
-R|--renegotiation)
do_renego=true
let "VULN_COUNT++"
;;
-C|--compression|--crime)
do_crime=true
let "VULN_COUNT++"
;;
-B|--breach)
do_breach=true
let "VULN_COUNT++"
;;
-O|--poodle)
do_ssl_poodle=true
do_tls_fallback_scsv=true
let "VULN_COUNT++"
;;
-Z|--tls[_-]fallback|tls[_-]fallback[_-]scs)
do_tls_fallback_scsv=true
let "VULN_COUNT++"
;;
-W|--sweet32)
do_sweet32=true
let "VULN_COUNT++"
;;
-F|--freak)
do_freak=true
let "VULN_COUNT++"
;;
-D|--drown)
do_drown=true
let "VULN_COUNT++"
;;
-J|--logjam)
do_logjam=true
let "VULN_COUNT++"
;;
-A|--beast)
do_beast=true
let "VULN_COUNT++"
;;
-L|--lucky13)
do_lucky13=true
let "VULN_COUNT++"
;;
-WS|--winshock)
do_winshock=true
let "VULN_COUNT++"
;;
-4|--rc4|--appelbaum)
do_rc4=true
let "VULN_COUNT++"
;;
-SI|--SI|--starttls[-_]injection)
do_starttls_injection=true
let "VULN_COUNT++"
;;
-f|--fs|--nsa|--forward-secrecy)
do_fs=true
;;
-g|--grease)
do_grease=true
;;
--disable-rating|--no-rating)
SKIP_TESTS+=("rating")
# TODO: a generic thing would be --disable-* / --no-* ,
# catch $1 and add it to the array ( #1502 )
;;
-9|--full)
set_scanning_defaults
do_allciphers=false
do_grease=true
;;
--add-ca|--add-CA|--add-ca=*|--add-CA=*)
ADDTL_CA_FILES="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
;;
--devel) echo -e "\nthis is a development feature and may disappear at any time"
# arg1: SSL/TLS protocol (SSLv2=22)
# arg2: list of cipher suites / hostname/ip
# arg3: hostname/ip
# DEBUG=3 ./testssl.sh --devel 04 "13,02, 13,01" google.com --> TLS 1.3
# DEBUG=3 ./testssl.sh --devel 03 "cc, 13, c0, 13" google.de --> TLS 1.2, old CHACHA/POLY
# DEBUG=3 ./testssl.sh --devel 03 "cc,a8, cc,a9, cc,aa, cc,ab, cc,ac" blog.cloudflare.com --> new CHACHA/POLY
# DEBUG=3 ./testssl.sh --devel 01 yandex.ru --> TLS 1.0
# DEBUG=3 ./testssl.sh --devel 00 <host which supports SSLv3>
# DEBUG=3 ./testssl.sh --devel 22 <host which still supports SSLv2>
HEX_CIPHER="$TLS12_CIPHER"
TLS_LOW_BYTE="$2"
if [[ $# -eq 4 ]]; then # protocol AND ciphers specified
HEX_CIPHER="$3"
shift
fi
shift
do_tls_sockets=true
outln "\nTLS_LOW_BYTE, HEX_CIPHER: \"${TLS_LOW_BYTE}\", \"${HEX_CIPHER}\""
;;
--wide)
WIDE=true
;;
--assuming[_-]http|--assume[-_]http)
ASSUME_HTTP=true
;;
--sneaky)
SNEAKY=true
;;
--user-agent|--user-agent=*)
UA_STD="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
;;
-q|--quiet)
QUIET=true
;;
--file|--file=*|-iL|-iL=*)
# no shift here as otherwise URI is empty and it bails out
FNAME="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
IKNOW_FNAME=true
WARNINGS=batch # set this implicitly!
do_mass_testing=true
;;
--mode|--mode=*)
MASS_TESTING_MODE="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
case "$MASS_TESTING_MODE" in
serial|parallel) ;;
*) tmln_magenta "\nmass testing mode can be either \"serial\" or \"parallel\"" 1>&2
help 1
esac
;;
--serial)
MASS_TESTING_MODE=serial
;;
--parallel)
MASS_TESTING_MODE=parallel
;;
--warnings|--warnings=*)
WARNINGS=$(parse_opt_equal_sign "$1" "$2")
[[ $? -eq 0 ]] && shift
case "$WARNINGS" in
batch|off) ;;
*) tmln_magenta "\nwarnings can be either \"batch\", or \"off\"" 1>&2
help 1
esac
;;
--show[-_]each)
SHOW_EACH_C=true
;;
--fast)
FAST=true
;;
--bugs)
BUGS="-bugs"
;;
--debug|--debug=*)
DEBUG=$(parse_opt_equal_sign "$1" "$2")
[[ $? -eq 0 ]] && shift
case $DEBUG in
[0-6]) ;;
*) tmln_magenta "\nunrecognized debug value \"$1\", must be between 0..6" 1>&2
help 1
esac
;;
--color|--color=*)
COLOR="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
case $COLOR in
[0-3]) ;;
*) COLOR=2
tmln_magenta "\nunrecognized color: \"$1\", must be between 0..3" 1>&2
help 1
esac
;;
--colorblind)
COLORBLIND=true
;;
--log|--logging)
"$do_logging" && fatal "two --log* arguments" $ERR_CMDLINE
do_logging=true
;; # DEFINITION of LOGFILE if no arg specified: automagically in parse_hn_port()
# following does the same but additionally we can specify a log location
--logfile|--logfile=*|-oL|-oL=*)
"$do_logging" && fatal "two --log* arguments" $ERR_CMDLINE
LOGFILE="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
do_logging=true
;;
--logfile-parent|--logfile-parent=*)
if ! "$CHILD_MASS_TESTING"; then
tmln_warning "$0: unrecognized option \"$1\"" 1>&2;
help 1
fi
PARENT_LOGFILE="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
do_logging=true
;;
--json)
"$do_pretty_json" && fatal "flat and pretty JSON output are mutually exclusive" $ERR_CMDLINE
"$do_json" && fatal "--json and --jsonfile are mutually exclusive" $ERR_CMDLINE
if [[ "$2" =~ \.(json|JSON)$ ]]; then
fatal "No file name allowed after \"--json\" (use \"--jsonfile\" instead)" $ERR_CMDLINE
fi
do_json=true
;; # DEFINITION of JSONFILE is not arg specified: automagically in parse_hn_port()
# following does the same but additionally we can specify a log location
--jsonfile|--jsonfile=*|-oj|-oj=*)
"$do_pretty_json" && fatal "flat and pretty JSON output are mutually exclusive" $ERR_CMDLINE
"$do_json" && fatal "--json and --jsonfile are mutually exclusive" $ERR_CMDLINE
JSONFILE="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
do_json=true
;;
--jsonfile-parent|--jsonfile-parent=*)
if ! "$CHILD_MASS_TESTING"; then
tmln_warning "$0: unrecognized option \"$1\"" 1>&2;
help 1
fi
PARENT_JSONFILE="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
do_json=true
;;
--json-pretty)
"$do_json" && fatal "flat and pretty JSON output are mutually exclusive" $ERR_CMDLINE
"$do_pretty_json" && fatal "--json-pretty and --jsonfile-pretty are mutually exclusive" $ERR_CMDLINE
if [[ "$2" =~ \.(json|JSON)$ ]]; then
fatal "No file name allowed after \"--json\" (use \"--jsonfile-pretty\" instead)" $ERR_CMDLINE
fi
do_pretty_json=true
;;
--jsonfile-pretty|--jsonfile-pretty=*|-oJ|-oJ=*)
"$do_json" && fatal "flat and pretty JSON output are mutually exclusive" $ERR_CMDLINE
"$do_pretty_json" && fatal "--json-pretty and --jsonfile-pretty are mutually exclusive" $ERR_CMDLINE
JSONFILE="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
do_pretty_json=true
;;
--jsonfile-pretty-parent|--jsonfile-pretty-parent=*)
if ! "$CHILD_MASS_TESTING"; then
tmln_warning "$0: unrecognized option \"$1\"" 1>&2;
help 1
fi
PARENT_JSONFILE="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
do_pretty_json=true
;;
--severity|--severity=*)
set_severity_level "$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
;;
--hints)
GIVE_HINTS=true
;;
--csv)
"$do_csv" && fatal "two --csv* arguments" $ERR_CMDLINE
if [[ "$2" =~ \.(csv|CSV)$ ]]; then
fatal "No file name allowed after \"--csv\" (use \"--csvfile\" instead)" $ERR_CMDLINE
fi
do_csv=true
;; # DEFINITION of CSVFILE is not arg specified: automagically in parse_hn_port()
# following does the same but additionally we can specify a log location
--csvfile|--csvfile=*|-oC|-oC=*)
"$do_csv" && fatal "two --csv* arguments" $ERR_CMDLINE
CSVFILE="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
do_csv=true
;;
--csvfile-parent|--csvfile-parent=*)
if ! "$CHILD_MASS_TESTING"; then
tmln_warning "$0: unrecognized option \"$1\"" 1>&2;
help 1
fi
PARENT_CSVFILE="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
do_csv=true
;;
--html)
"$do_html" && fatal "two --html* arguments" $ERR_CMDLINE
if [[ "$2" =~ \.(htm|html|HTM|HTML)$ ]]; then
fatal "No file name allowed after \"--html\" (use \"--htmlfile\" instead)" $ERR_CMDLINE
fi
do_html=true
;; # DEFINITION of HTMLFILE is not arg specified: automagically in parse_hn_port()
# following does the same but additionally we can specify a file location
--htmlfile|--htmlfile=*|-oH|-oH=*)
"$do_html" && fatal "two --html* arguments" $ERR_CMDLINE
HTMLFILE="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
do_html=true
;;
--htmlfile-parent|--htmlfile-parent=*)
if ! "$CHILD_MASS_TESTING"; then
tmln_warning "$0: unrecognized option \"$1\"" 1>&2;
help 1
fi
PARENT_HTMLFILE="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
do_html=true
;;
--outfile|--outfile=*|-oa|-oa=*)
( "$do_html" || "$do_json" || "$do_pretty_json" || "$do_csv" || "$do_logging" ) && fatal "check your arguments four multiple file output options" $ERR_CMDLINE
outfile_arg="$(parse_opt_equal_sign "$1" "$2")"
if [[ "$outfile_arg" != "auto" ]]; then
if [[ -d "$outfile_arg" ]]; then
HTMLFILE="$outfile_arg"
CSVFILE="$outfile_arg"
JSONFILE="$outfile_arg"
LOGFILE="$outfile_arg"
else
HTMLFILE="$outfile_arg.html"
CSVFILE="$outfile_arg.csv"
JSONFILE="$outfile_arg.json"
LOGFILE="$outfile_arg.log"
fi
fi
[[ $? -eq 0 ]] && shift
do_html=true
do_json=true
do_csv=true
do_logging=true
;;
--outFile|--outFile=*|-oA|-oA=*)
( "$do_html" || "$do_json" || "$do_pretty_json" || "$do_csv" || "$do_logging" ) && fatal "check your arguments four multiple file output options" $ERR_CMDLINE
outfile_arg="$(parse_opt_equal_sign "$1" "$2")"
if [[ "$outfile_arg" != "auto" ]]; then
if [[ -d "$outfile_arg" ]]; then
HTMLFILE="$outfile_arg"
CSVFILE="$outfile_arg"
JSONFILE="$outfile_arg"
LOGFILE="$outfile_arg"
else
HTMLFILE="$outfile_arg.html"
CSVFILE="$outfile_arg.csv"
JSONFILE="$outfile_arg.json"
LOGFILE="$outfile_arg.log"
fi
fi
[[ $? -eq 0 ]] && shift
do_html=true
do_pretty_json=true
do_csv=true
do_logging=true
;;
--overwrite)
"$APPEND" && fatal "using --overwrite and --append is contradicting" $ERR_CMDLINE
OVERWRITE=true
;;
--append)
"$OVERWRITE" && fatal "using --append and --overwrite is contradicting" $ERR_CMDLINE
APPEND=true
;;
--outprefix)
FNAME_PREFIX="$(parse_opt_equal_sign "$1" "$2")"
if [[ $? -eq 0 ]]; then
shift
case "$(get_last_char "$FNAME_PREFIX")" in
'.') ;;
'-') ;;
'_') ;;
*) FNAME_PREFIX="${FNAME_PREFIX}-" ;;
esac
fi
;;
--openssl|--openssl=*)
OPENSSL="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
;;
--openssl-timeout|--openssl-timeout=*)
OPENSSL_TIMEOUT="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
;;
--connect-timeout|--connect-timeout=*)
CONNECT_TIMEOUT="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
;;
--mapping|--mapping=*)
cipher_mapping="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
case "$cipher_mapping" in
no-openssl) DISPLAY_CIPHERNAMES="rfc-only" ;;
no-rfc|no-iana) DISPLAY_CIPHERNAMES="openssl-only" ;;
openssl) DISPLAY_CIPHERNAMES="openssl" ;;
rfc|iana) DISPLAY_CIPHERNAMES="rfc" ;;
*) tmln_warning "\nmapping can only be \"no-openssl\", \"no-iana\"(\"no-rfc\"), \"openssl\" or \"iana\"(\"rfc\")" 1>&2;
help 1 ;;
esac
;;
--proxy|--proxy=*)
PROXY="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
;;
--phone-out)
PHONE_OUT=true
;;
-6) # doesn't work automagically. My versions have -DOPENSSL_USE_IPV6, CentOS/RHEL/FC do not
HAS_IPv6=true
;;
--has[-_]dhbits|--has[_-]dh[-_]bits)
# Should work automagically. Helper switch for CentOS,RHEL+FC w openssl server temp key backport (version 1.0.1), see #190
HAS_DH_BITS=true
;;
--ssl_native|--ssl-native)
SSL_NATIVE=true
;;
--basicauth|--basicauth=*)
BASICAUTH="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
;;
--reqheader|--reqheader=*)
REQHEADER="$(parse_opt_equal_sign "$1" "$2")"
[[ $? -eq 0 ]] && shift
REQHEADERS+=("$REQHEADER")
;;
(--) shift
break
;;
(-*) tmln_warning "$0: unrecognized option \"$1\"" 1>&2;
help 1
;;
(*) break
;;
esac
shift
done
# Show usage if no further options were specified
if [[ -z "$1" ]] && [[ -z "$FNAME" ]] && ! "$do_display_only"; then
fatal "URI missing" $ERR_CMDLINE
else
# What is left here should be the URI.
URI="$1"
[[ -n "$2" ]] && fatal "URI comes last" $ERR_CMDLINE
fi
# Now spot some incompatibilities in cmdlines
[[ $CMDLINE_IP == one ]] && [[ "$NODNS" == none ]] && fatal "\"--ip=one\" and \"--nodns=none\" don't work together" $ERR_CMDLINE
[[ $CMDLINE_IP == one ]] && ( is_ipv4addr "$URI" || is_ipv6addr "$URI" ) && fatal "\"--ip=one\" plus supplying an IP address doesn't work" $ERR_CMDLINE
"$do_mx_all_ips" && [[ "$NODNS" == none ]] && fatal "\"--mx\" and \"--nodns=none\" don't work together" $ERR_CMDLINE
[[ -n "$CONNECT_TIMEOUT" ]] && [[ "$MASS_TESTING_MODE" == parallel ]] && fatal "Parallel mass scanning and specifying connect timeouts currently don't work together" $ERR_CMDLINE
if [[ -d $ADDTL_CA_FILES ]]; then
ADDTL_CA_FILES="$ADDTL_CA_FILES/*.pem"
else
ADDTL_CA_FILES="${ADDTL_CA_FILES//,/ }"
fi
for fname in $ADDTL_CA_FILES; do
[[ -s "$fname" ]] || fatal "CA file \"$fname\" does not exist" $ERR_RESOURCE
grep -q "BEGIN CERTIFICATE" "$fname" || fatal "\"$fname\" is not CA file in PEM format" $ERR_RESOURCE
done
if "$do_starttls_injection" && [[ "$STARTTLS_PROTOCOL" =~ smtp ]]; then
let "VULN_COUNT++"
fi
count_do_variables
[[ $? -eq 0 ]] && set_scanning_defaults
set_skip_tests
[[ "$DEBUG" -ge 5 ]] && debug_globals
# Unless explicit disabled, check if rating can be enabled
# Should be called after set_scanning_defaults
! "$do_rating" && set_rating_state
CMDLINE_PARSED=true
}
# connect call from openssl needs ipv6 in square brackets
nodeip_to_proper_ip6() {
local len_nodeip=0
if is_ipv6addr $NODEIP; then
${UNBRACKTD_IPV6} || NODEIP="[$NODEIP]"
len_nodeip=${#NODEIP}
CORRECT_SPACES="$(printf -- " "'%.s' $(eval "echo {1.."$((len_nodeip - 17))"}"))"
# IPv6 addresses are longer, this variable takes care that "further IP" and "Service" is properly aligned
fi
}
reset_hostdepended_vars() {
TLS_EXTENSIONS=""
PROTOS_OFFERED=""
CURVES_OFFERED=""
OPTIMAL_PROTO=""
ALL_FAILED_SOCKETS=true
SERVER_SIZE_LIMIT_BUG=false
}
# Rough estimate, in the future we maybe want to make use of nano secs (%N). Note this
# is for performance debugging purposes (MEASURE_TIME=yes), eye candy is not important.
#
stopwatch() {
local new_delta
local column=$((COLUMNS - 0)) # for future adjustments
"$MEASURE_TIME" || return
new_delta=$(( $(date +%s) - LAST_TIME ))
printf "%${column}s" "$1: $new_delta"
[[ -e "$MEASURE_TIME_FILE" ]] && echo "$1 : $new_delta " >> "$MEASURE_TIME_FILE"
LAST_TIME=$(( new_delta + LAST_TIME ))
}
# arg1(optional): "init" --> just initializing. Or: STARTTLS protocol
lets_roll() {
local -i ret=0
local section_number=0
if [[ "$1" == init ]]; then
# called once upfront to be able to measure preparation time b4 everything starts
START_TIME=$(date +%s)
LAST_TIME=$START_TIME
[[ -n "$MEASURE_TIME_FILE" ]] && >"$MEASURE_TIME_FILE"
return 0
fi
stopwatch initialized
[[ -z "$NODEIP" ]] && fatal "$NODE doesn't resolve to an IP address" $ERR_DNSLOOKUP
nodeip_to_proper_ip6
reset_hostdepended_vars
determine_rdns # Returns always zero or has already exited if fatal error occurred
stopwatch determine_rdns
((SERVER_COUNTER++))
datebanner " Start"
determine_service "$1" # STARTTLS service? Other will be determined here too. Returns 0 if test connect was ok or has already exited if fatal error occurred
# determine_service() can return 1, it indicates that this IP cannot be reached but there are more IPs to check
if [[ $? -eq 0 ]] ; then
# "secret" devel options --devel:
if "$do_tls_sockets"; then
if [[ "$TLS_LOW_BYTE" == 22 ]]; then
sslv2_sockets "" "true"
else
if [[ "$TLS_LOW_BYTE" == 04 ]]; then
if "$CERT_COMPRESSION"; then
# See PR #1279
[[ $DEBUG -eq 3 ]] && tmln_out "including TLS extension certificate compression"
tls_sockets "$TLS_LOW_BYTE" "$HEX_CIPHER" "all+" "00,1b, 00,03, 02, 00,01"
else
tls_sockets "$TLS_LOW_BYTE" "$HEX_CIPHER" "ephemeralkey"
fi
else
tls_sockets "$TLS_LOW_BYTE" "$HEX_CIPHER" "all"
fi
fi
echo $?
exit $ALLOK;
fi
if "$do_cipher_match"; then
# we will have an invalid JSON with no if statement
fileout_section_header $section_number false
run_cipher_match ${single_cipher}
stopwatch run_cipher_match
else
fileout_section_header $section_number false && ((section_number++))
determine_sizelimitbug
fileout_section_footer false
((section_number++))
# all top level functions now following have the prefix "run_"
fileout_section_header $section_number false && ((section_number++))
"$do_protocols" && {
run_protocols; ret=$(($? + ret)); stopwatch run_protocols;
run_npn; ret=$(($? + ret)); stopwatch run_npn;
run_alpn; ret=$(($? + ret)); stopwatch run_alpn;
}
fileout_section_header $section_number true && ((section_number++))
"$do_grease" && { run_grease; ret=$(($? + ret)); stopwatch run_grease; }
fileout_section_header $section_number true && ((section_number++))
"$do_cipherlists" && { run_cipherlists; ret=$(($? + ret)); stopwatch run_cipherlists; }
fileout_section_header $section_number true && ((section_number++))
"$do_server_preference" && { run_server_preference; ret=$(($? + ret)); stopwatch run_server_preference; }
fileout_section_header $section_number true && ((section_number++))
"$do_fs" && { run_fs; ret=$(($? + ret)); stopwatch run_fs; }
fileout_section_header $section_number true && ((section_number++))
"$do_server_defaults" && { run_server_defaults; ret=$(($? + ret)); stopwatch run_server_defaults; }
if "$do_header"; then
#TODO: refactor this into functions
fileout_section_header $section_number true && ((section_number++))
if [[ $SERVICE == HTTP ]]; then
run_http_header "$URL_PATH"; ret=$(($? + ret))
run_http_date "$URL_PATH"; ret=$(($? + ret))
run_hsts "$URL_PATH"; ret=$(($? + ret))
run_hpkp "$URL_PATH"; ret=$(($? + ret))
run_server_banner "$URL_PATH"; ret=$(($? + ret))
run_appl_banner "$URL_PATH"; ret=$(($? + ret))
run_cookie_flags "$URL_PATH"; ret=$(($? + ret))
run_security_headers "$URL_PATH"; ret=$(($? + ret))
run_rp_banner "$URL_PATH"; ret=$(($? + ret))
stopwatch do_header
fi
else
((section_number++))
fi
# vulnerabilities
if [[ $VULN_COUNT -gt $VULN_THRESHLD ]] || "$do_vulnerabilities"; then
outln; pr_headlineln " Testing vulnerabilities "
outln
fi
fileout_section_header $section_number true && ((section_number++))
"$do_heartbleed" && { run_heartbleed; ret=$(($? + ret)); stopwatch run_heartbleed; }
"$do_ccs_injection" && { run_ccs_injection; ret=$(($? + ret)); stopwatch run_ccs_injection; }
"$do_ticketbleed" && { run_ticketbleed; ret=$(($? + ret)); stopwatch run_ticketbleed; }
"$do_robot" && { run_robot; ret=$(($? + ret)); stopwatch run_robot; }
"$do_renego" && { run_renego; ret=$(($? + ret)); stopwatch run_renego; }
"$do_crime" && { run_crime; ret=$(($? + ret)); stopwatch run_crime; }
"$do_breach" && { run_breach "$URL_PATH" ; ret=$(($? + ret)); stopwatch run_breach; }
"$do_ssl_poodle" && { run_ssl_poodle; ret=$(($? + ret)); stopwatch run_ssl_poodle; }
"$do_tls_fallback_scsv" && { run_tls_fallback_scsv; ret=$(($? + ret)); stopwatch run_tls_fallback_scsv; }
"$do_sweet32" && { run_sweet32; ret=$(($? + ret)); stopwatch run_sweet32; }
"$do_freak" && { run_freak; ret=$(($? + ret)); stopwatch run_freak; }
"$do_drown" && { run_drown ret=$(($? + ret)); stopwatch run_drown; }
"$do_logjam" && { run_logjam; ret=$(($? + ret)); stopwatch run_logjam; }
"$do_beast" && { run_beast; ret=$(($? + ret)); stopwatch run_beast; }
"$do_lucky13" && { run_lucky13; ret=$(($? + ret)); stopwatch run_lucky13; }
"$do_winshock" && { run_winshock; ret=$(($? + ret)); stopwatch run_winshock; }
"$do_rc4" && { run_rc4; ret=$(($? + ret)); stopwatch run_rc4; }
"$do_starttls_injection" && { run_starttls_injection; ret=$(($? + ret)); stopwatch run_starttls_injection; }
outln
fileout_section_header $section_number true && ((section_number++))
"$do_allciphers" && { run_allciphers; ret=$(($? + ret)); stopwatch run_allciphers; }
"$do_cipher_per_proto" && { run_cipher_per_proto; ret=$(($? + ret)); stopwatch run_cipher_per_proto; }
fileout_section_header $section_number true && ((section_number++))
"$do_client_simulation" && { run_client_simulation; ret=$(($? + ret)); stopwatch run_client_simulation; }
fileout_section_header $section_number true && ((section_number++))
"$do_rating" && { run_rating; ret=$(($? + ret)); stopwatch run_rating; }
fi
fileout_section_footer true
fi
outln
calc_scantime
datebanner " Done"
# reset the failed connect counter as we are finished
NR_SOCKET_FAIL=0
NR_OSSL_FAIL=0
"$MEASURE_TIME" && printf "$1: %${COLUMNS}s\n" "$SCAN_TIME"
[[ -e "$MEASURE_TIME_FILE" ]] && echo "Total : $SCAN_TIME " >> "$MEASURE_TIME_FILE"
return $ret
}
################# main #################
RET=0 # this is a global as we can have a function main(), see #705. Should we toss then all local $ret?
ip=""
stopwatch start
lets_roll init
initialize_globals
check_base_requirements # needs to come after $do_html is defined
parse_cmd_line "$@"
# CMDLINE_PARSED has been set now. Don't put a function immediately after this which calls fatal().
# Rather put it after csv_header below.
# html_header() needs to be called early! Otherwise if html_out() is called before html_header() and the
# command line contains --htmlfile <htmlfile> or --html, it'll make problems with html output, see #692.
# json_header and csv_header could be called later but for context reasons we'll leave it here
html_header
json_header
csv_header
get_install_dir
# see #705, we need to source TLS_DATA_FILE here instead of in get_install_dir(), see #705
[[ -r "$TLS_DATA_FILE" ]] && . "$TLS_DATA_FILE"
set_color_functions
maketempf
find_openssl_binary
find_socat
choose_printf
check_resolver_bins
prepare_debug ; stopwatch parse
prepare_arrays ; stopwatch prepare_arrays
mybanner
check_proxy
check4openssl_oldfarts
check_bsd_mount
if "$do_display_only"; then
prettyprint_local "$PATTERN2SHOW"
exit $?
fi
fileout_banner
if "$do_mass_testing"; then
prepare_logging
if [[ "$MASS_TESTING_MODE" == parallel ]]; then
run_mass_testing_parallel
else
run_mass_testing
fi
exit $?
fi
html_banner
#TODO: there shouldn't be the need for a special case for --mx, only the ip addresses we would need upfront and the do-parser
if "$do_mx_all_ips"; then
#FIXME: do we need this really here?
count_do_variables # if we have just 1x "do_*" --> we do a standard run -- otherwise just the one specified
[[ $? -eq 1 ]] && set_scanning_defaults
run_mx_all_ips "${URI}" $PORT # we should reduce run_mx_all_ips to what's necessary as below we have similar code
exit $?
fi
[[ -z "$NODE" ]] && parse_hn_port "${URI}" # NODE, URL_PATH, PORT, IPADDRs and IP46ADDR is set now
prepare_logging
if ! determine_ip_addresses; then
fatal "No IP address could be determined" $ERR_DNSLOOKUP
fi
if [[ $(count_words "$IPADDRs") -gt 1 ]]; then # we have more than one ipv4 address to check
MULTIPLE_CHECKS=true
pr_bold "Testing all IPv4 addresses (port $PORT): "; outln "$IPADDRs"
for ip in $IPADDRs; do
draw_line "-" $((TERM_WIDTH * 2 / 3))
outln
NODEIP="$ip"
lets_roll "${STARTTLS_PROTOCOL}"
RET=$((RET + $?)) # RET value per IP address
done
draw_line "-" $((TERM_WIDTH * 2 / 3))
outln
pr_bold "Done testing now all IP addresses (on port $PORT): "; outln "$IPADDRs"
else # Just 1x ip4v to check, applies also if CMDLINE_IP was supplied
NODEIP="$IPADDRs"
lets_roll "${STARTTLS_PROTOCOL}"
RET=$?
fi
exit $RET